Pulmonary embolism landmark trials: Difference between revisions
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{{Pulmonary embolism}} | {{Pulmonary embolism}} | ||
'''Editor(s)-In-Chief:''' {{ATI}}, [[C. Michael Gibson, M.S., M.D.]] [mailto:charlesmichaelgibson@gmail.com]; {{AE}} {{CZ}} | |||
== | ==Overview== | ||
There have been various trials and studies since the discovery of PE. These trials and studies have guided our knowledge about the disease and our approach to the diagnosis and treatment of a pulmonary embolism. The major trials and studies causing most impact are mentioned in this chapter. | |||
===Trials | == Landmark Trials == | ||
1. '''PIOPED''' (Prospective Investigation in Pulmonary Embolism Diagnosis) (1989).<ref name="pmid2332918">{{cite journal |author= |title=Value of the ventilation/perfusion scan in acute pulmonary embolism. Results of the prospective investigation of pulmonary embolism diagnosis (PIOPED). The PIOPED Investigators |journal=JAMA |volume=263 |issue=20 |pages=2753–9 |year=1990 |pmid=2332918 |doi= |url= |accessdate=2012-01-10}}</ref> | === Trials Assessing the Prevention of VTE === | ||
1. '''MEDNOX''' (Prophylaxis in '''MEd'''ical Patients with '''ENox'''aparin) (1999). <ref name="pmid10477777">{{cite journal |author=Samama MM, Cohen AT, Darmon JY, Desjardins L, Eldor A, Janbon C, Leizorovicz A, Nguyen H, Olsson CG, Turpie AG, Weisslinger N |title=A comparison of enoxaparin with placebo for the prevention of venous thromboembolism in acutely ill medical patients. Prophylaxis in Medical Patients with Enoxaparin Study Group |journal=N. Engl. J. Med. |volume=341 |issue=11 |pages=793–800 |year=1999 |month=September |pmid=10477777 |doi=10.1056/NEJM199909093411103 |url=http://dx.doi.org/10.1056/NEJM199909093411103 |accessdate=2012-05-02}}</ref> | |||
* ''' Patient enrollment:''' 1102 | |||
* ''' Inclusion criteria:''' Medical patients > 40 years of age with a projected hospital stay of at least six days, no prolonged immobilization, and one of the following illnesses: class III or IV [[heart failure]], [[acute respiratory failure]] not requiring mechanical ventilation, acute infection without [[shock]], acute rheumatic or musculoskeletal disorder, or [[inflammatory bowel disease]]. Patients with any but the first two diagnoses also had to have a clinical risk factor for [[thromboembolism]], including age > 75, [[cancer]], previous [[venous thromboembolism]], [[obesity]], [[varicose veins]], [[hormone therapy]], or chronic heart or respiratory failure. | |||
* ''' Purpose:'''This randomized, double-blind, multicenter study compared two daily doses of subcutaneous enoxaparin with placebo for the prevention of thromboembolism in patients hospitalized for acute medical illnesses. | |||
* '''Result:''' The primary outcome could be assessed in 866 patients. The incidence of venous thromboembolism was significantly lower in the group that received 40 mg of enoxaparin (5.5 percent [16 of 291 patients]) than in the group that received a placebo (14.9 percent [43 of 288 patients]) (relative risk, 0.37; 97.6 percent confidence interval, 0.22 to 0.63; P< 0.001). The benefit observed with 40 mg of enoxaparin was maintained at three months. There was no significant difference in the incidence of venous thromboembolism between the group that received 20 mg of enoxaparin (43 of 287 patients [15.0 percent]) and the placebo group. The incidence of adverse effects did not differ significantly between the placebo group and either enoxaparin group. By day 110, 50 patients had died in the placebo group (13.9 percent), 51 had died in the 20-mg group (14.7 percent), and 41 had died in the 40-mg group (11.4 percent); the differences were not significant. | |||
2. '''PREVENT''' Randomized, placebo-controlled trial of dalteparin for the prevention of venous thromboembolism in acutely ill medical patients. (2004) <ref name="pmid15289368">{{cite journal |author=Leizorovicz A, Cohen AT, Turpie AG, Olsson CG, Vaitkus PT, Goldhaber SZ |title=Randomized, placebo-controlled trial of dalteparin for the prevention of venous thromboembolism in acutely ill medical patients |journal=Circulation |volume=110 |issue=7 |pages=874–9 |year=2004 |month=August |pmid=15289368 |doi=10.1161/01.CIR.0000138928.83266.24 |url=http://circ.ahajournals.org/cgi/pmidlookup?view=long&pmid=15289368 |accessdate=2012-05-02}}</ref> | |||
* ''' Patient enrollment:''' 3706 | |||
* ''' Inclusion criteria:''' Patients were considered for inclusion if they were ≥ 40 years of age with an acute medical condition requiring a projected hospitalization of ≥ 4 days and had ≤ 3 days of prior immobilization. Inclusion criteria were acute [[congestive heart failure]], acute [[respiratory failure]] that did not require ventilatory support, infection without [[septic shock]], acute rheumatologic disorders, or [[inflammatory bowel disease]]. Except for congestive heart or acute respiratory failure, patients had to have ≥ 1 additional risk factor for [[venous thromboembolism]]: age ≥ 75 years, [[cancer]], previous venous thromboembolism, [[obesity]], [[varicose veins]] and/or chronic venous insufficiency, [[hormone replacement therapy]], a history of chronic heart failure, chronic respiratory failure, or [[myeloproliferative syndrome]]. | |||
* ''' Purpose:''' To assess the efficacy and safety of dalteparin in the prevention of venous thromboembolism in acutely ill medical patients. | |||
* '''Result:''' The incidence of venous thromboembolism was reduced from 4.96% (73 of 1473 patients) in the placebo group to 2.77% (42 of 1518 patients) in the dalteparin group, an absolute risk reduction of 2.19% or a relative risk reduction of 45% (relative risk, 0.55; 95% CI, 0.38 to 0.80; P=0.0015). The observed benefit was maintained at 90 days. The overall incidence of major bleeding was low, but it was higher in the dalteparin group (9 patients; 0.49%) compared with the placebo group (3 patients; 0.16%). | |||
* '''Conclusion:''' Dalteparin 5000 IU once daily cut the rate of venous thromboembolism with a low risk of bleeding. | |||
=== Trials Assessing Diagnosis === | |||
1. '''PIOPED''' (Prospective Investigation in Pulmonary Embolism Diagnosis) (1989).<ref name="pmid2332918">{{cite journal |author=|title=Value of the ventilation/perfusion scan in acute pulmonary embolism. Results of the prospective investigation of pulmonary embolism diagnosis (PIOPED). The PIOPED Investigators |journal=JAMA |volume=263 |issue=20 |pages=2753–9 |year=1990 |pmid=2332918|doi= |url= |accessdate=2012-01-10}}</ref> | |||
(ClinicalTrials.gov number, NCT00000566). | (ClinicalTrials.gov number, NCT00000566). | ||
2. '''PIOPED II '''(Prospective Investigation in Pulmonary Embolism Diagnosis II) ( | * ''' Patient enrollment:''' 1493 | ||
* ''' Inclusion criteria:''' Occlusion of a lobar artery or at least two segmental arteries evident at [[angiography]]. Risk factors, signs, symptoms or laboratory findings which were unexplained and suggestive of an acute pulmonary embolism | |||
* '''Purpose :''' To evaluate the sensitivity and specificity of two major, widely used technologies. These technologies are radionuclear imaging (ventilation-perfusion scanning) and pulmonary angiography, for the diagnosis of pulmonary embolism. | |||
* '''Result:''' Almost all patients with a pulmonary embolism had abnormal scans of high, intermediate, or low probability, but so did most without pulmonary embolism (sensitivity, 98%; specificity, 10%). Of 116 patients with high-probability scans and definitive angiograms, 102 (88%) had pulmonary embolism, but only a minority with pulmonary embolism had high-probability scans (sensitivity, 41%; specificity, 97%). Of 322 with intermediate-probability scans and definitive angiograms, 105 (33%) had pulmonary embolism. | |||
2. '''PIOPED II '''(Prospective Investigation in Pulmonary Embolism Diagnosis II). (2004) <ref name="pmid12105798">{{cite journal |author=Gottschalk A, Stein PD, Goodman LR, Sostman HD |title=Overview of Prospective Investigation of Pulmonary Embolism Diagnosis II |journal=Semin Nucl Med |volume=32 |issue=3 |pages=173–82 |year=2002 |month=July |pmid=12105798|doi=10.1053/snuc.2002.124177 |url=http://linkinghub.elsevier.com/retrieve/pii/S0001-2998(02)80003-4|accessdate=2012-01-10}}</ref><ref name="pmid16738268">{{cite journal |author=Stein PD, Fowler SE, Goodman LR, Gottschalk A, Hales CA, Hull RD, Leeper KV, Popovich J, Quinn DA, Sos TA, Sostman HD, Tapson VF, Wakefield TW, Weg JG, Woodard PK |title=Multidetector computed tomography for acute pulmonary embolism |journal=N. Engl. J. Med. |volume=354 |issue=22 |pages=2317–27 |year=2006|month=June |pmid=16738268 |doi=10.1056/NEJMoa052367 |url=http://dx.doi.org/10.1056/NEJMoa052367 |accessdate=2012-04-28}}</ref> | |||
(ClinicalTrials.gov number, NCT00007085). | (ClinicalTrials.gov number, NCT00007085). | ||
* '''Purpose :''' It was designed to assess the efficacy of the spiral computed tomographic pulmonary angiogram in patients suspected of having acute pulmonary embolism (PE). | * ''' Patient enrollment:''' 824 | ||
*''' | * ''' Inclusion criteria:''' 1) Age ≥ 18 years; 2) suspected diagnosis of acute PE; 3) Able to give informed consent; 4) Willing to undergo VQ lung scan, spiral CT, venous compression ultrasound of the lower limbs (U/S), and digital subtraction angiography (DSA). | ||
* '''Purpose:''' It was designed to assess the efficacy of the spiral computed tomographic pulmonary angiogram in patients suspected of having acute pulmonary embolism (PE). | |||
* '''Comparison with PIOPED:''' In contrast to the original PIOPED study, which used contrast pulmonary angiography as the primary reference test for PE, PIOPED II used composite reference test for venous thromboembolism that was based on the ventilation/perfusion lung scan, venous compression ultrasound of the lower extremities, digital subtraction pulmonary angiography, and contrast venography in various combinations to establish the PE status of the patient. New criteria for ventilation/perfusion lung scan | *'''Result:''' In patients with a suspected pulmonary embolism, multidetector CTA-CTV has a higher diagnostic sensitivity than does CTA alone, with similar specificity. The predictive value of either CTA or CTA-CTV is high with a concordant clinical assessment, but additional testing is necessary when the clinical probability is inconsistent with the imaging results. | ||
* '''Comparison with PIOPED:''' In contrast to the original PIOPED study, which used contrast pulmonary angiography as the primary reference test for PE, PIOPED II used a composite reference test for venous thromboembolism that was based on the ventilation/perfusion lung scan, venous compression ultrasound of the lower extremities, digital subtraction pulmonary angiography, and contrast venography in various combinations to establish the PE status of the patient. New criteria for ventilation/perfusion lung scan diagnoses were developed for PIOPED II. | |||
3. '''PIOPED III '''(Prospective Investigation of Pulmonary Embolism Diagnosis III) (2010). <ref name="pmid20368649">{{cite journal |author=Stein PD, Chenevert TL, Fowler SE, Goodman LR, Gottschalk A, Hales CA, Hull RD, Jablonski KA, Leeper KV, Naidich DP, Sak DJ, Sostman HD, Tapson VF, Weg JG, Woodard PK|title=Gadolinium-enhanced magnetic resonance angiography for pulmonary embolism: a multicenter prospective study (PIOPED III)|journal=Ann. Intern. Med. |volume=152 |issue=7 |pages=434–43, W142–3 |year=2010 |month=April |pmid=20368649 |pmc=3138428|doi=10.1059/0003-4819-152-7-201004060-00008 |url= |accessdate=2012-01-10}}</ref> | 3. ECG score predicts those with the greatest percentage of perfusion defects due to acute pulmonary thromboembolic disease. (2004) <ref name="pmid15136372">{{cite journal |author=Iles S, Le Heron CJ, Davies G, Turner JG, Beckert LE |title=ECG score predicts those with the greatest percentage of perfusion defects due to acute pulmonary thromboembolic disease |journal=Chest |volume=125 |issue=5 |pages=1651–6 |year=2004 |month=May |pmid=15136372 |doi= |url=http://www.chestjournal.org/cgi/pmidlookup?view=long&pmid=15136372 |accessdate=2012-05-05}}</ref> | ||
* ''' Patient enrollment:''' 299 | |||
* ''' Inclusion criteria:''' Consecutive patients investigated for PE at Christchurch Hospital between 1997 and 2002 with high-probability ventilation/perfusion (V/Q) scan findings. | |||
* '''Purpose:''' A scoring system based on the ECG might identify such patients. | |||
* '''Methods:''' Consecutive patients investigated for PE at Christchurch Hospital between 1997 and 2002 with high-probability ventilation/perfusion (V/Q) scan findings were studied. The ECG obtained closest to and within 48 hours of the scan was scored by two independent observers, and the mean ECG score was calculated. V/Q scan findings were categorized into those with < 30%, 30 to 50%, and > 50% perfusion defect by two independent observers experienced in V/Q interpretation. A consensus score was taken when disagreement occurred. | |||
*'''Result: ''' The interobserver agreement for ECG score was 0.96 (Cronbach alpha) and V/Q score was 0.55 (kappa). The ECG predicted those with the greatest amount of perfusion defects. The mean ECG score was 2.6 (SD 2.8) in patients with < 30% perfusion defect, 3.2 (SD 2.9) in patients with 30 to 50% perfusion defect, and 5.3 (SD 3.7) in patients with > 50% perfusion defect. The area under the receiver operating characteristic curve for ECG score and those with > 50% perfusion defect was 0.71 (SE 0.04). An ECG score of ≥ 3 predicted those with > 50% perfusion defect with a sensitivity of 70% (95% confidence interval [CI], 59 to 81%), and a specificity of 59% (95% CI, 51 to 67%). | |||
*'''Conclusion::''' An ECG score, simple to derive, predicts those with the greatest percentage of perfusion defect. | |||
4. '''PIOPED III '''(Prospective Investigation of Pulmonary Embolism Diagnosis III) (2010).<ref name="pmid20368649">{{cite journal|author=Stein PD, Chenevert TL, Fowler SE, Goodman LR, Gottschalk A, Hales CA, Hull RD, Jablonski KA, Leeper KV, Naidich DP, Sak DJ, Sostman HD, Tapson VF, Weg JG, Woodard PK|title=Gadolinium-enhanced magnetic resonance angiography for pulmonary embolism: a multicenter prospective study (PIOPED III)|journal=Ann. Intern. Med. |volume=152 |issue=7 |pages=434–43, W142–3 |year=2010|month=April |pmid=20368649 |pmc=3138428|doi=10.1059/0003-4819-152-7-201004060-00008 |url= |accessdate=2012-01-10}}</ref> | |||
(ClinicalTrials.gov number, NCT00241826). | (ClinicalTrials.gov number, NCT00241826). | ||
* '''Purpose :'''The purpose of this study is to determine the diagnostic accuracy of gadolinium-enhanced magnetic resonance angiography (Gd-MRA) of the pulmonary arteries in combination with magnetic resonance venography (MRV) of the veins | *'''Patient enrollment:''' 818 | ||
*'''Study | *'''Inclusion criteria:''' 1) Age ≥ 18 years; 2)Had been hospitalized or in the emergency department with diagnosed or excluded pulmonary embolism. | ||
*'''Study | * '''Purpose :'''The purpose of this study is to determine the diagnostic accuracy of gadolinium-enhanced magnetic resonance angiography (Gd-MRA) of the pulmonary arteries in combination with magnetic resonance venography (MRV) of the veins in the thighs in patients with a clinically suspected acute pulmonary embolism (PE). | ||
*'''Result:''' Magnetic resonance angiography, averaged across centers, was technically inadequate in 25% of patients (92 of 371). The proportion of technically inadequate images ranged from 11% to 52% at various centers. Including patients with technically inadequate images, magnetic resonance angiography identified 57% (59 of 104) with pulmonary embolism. Technically adequate magnetic resonance angiography had a sensitivity of 78% and a specificity of 99%. Technically adequate magnetic resonance angiography and venography had a sensitivity of 92% and a specificity of 96%, but 52% of patients (194 of 370) had technically inadequate results. | |||
*'''Conclusion:''' Magnetic resonance pulmonary angiography should be considered only at centers that routinely perform it well and only for patients for whom standard tests are contraindicated. Magnetic resonance pulmonary angiography and magnetic resonance venography combined have a higher sensitivity than magnetic resonance pulmonary angiography alone in patients with technically adequate images. It is more difficult to obtain technically adequate images with the 2 procedures. | |||
=== Trials and Studies Assessing Prognosis === | |||
==== Registries ==== | |||
1 '''MAPPET''' (Management Strategy and Prognosis of Pulmonary Embolism Registry) (1997).<ref name="pmid9350909">{{cite journal|author=Kasper W, Konstantinides S, Geibel A, Olschewski M, Heinrich F, Grosser KD et al.| title=Management strategies and determinants of outcome in acute major pulmonary embolism: results of a multicenter registry. | journal=J Am Coll Cardiol | year= 1997 | volume= 30 | issue= 5 | pages= 1165-71 | pmid=9350909 | doi= | pmc= |url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=9350909 }} </ref> | |||
*''' Patient enrollment:''' 1001 | |||
*''' Inclusion criteria:''' Based on the clinical findings at presentation and the results of electrocardiographic, echocardiographic, nuclear imaging and cardiac catheterization studies. | |||
*''' Purpose:''' This study investigated current management strategies as well as the clinical course of acute major pulmonary embolism. In other words, it is a study assessing the efficacy of [[thrombolysis]]. | |||
*''' Result: ''' Echocardiography was the most frequently performed diagnostic procedure (74%). Either a lung scan or pulmonary angiography was performed in 79% of clinically stable patients but much less frequently in those with circulatory collapse at presentation (32%, p < 0.001). Thrombolytic agents were given to 478 patients (48%), often despite the presence of contraindications (193 [40%] of 478). The frequency of initial thrombolysis was significantly higher in clinically unstable than in normotensive patients (57% vs. 22%, p < 0.001). Overall, the in-hospital mortality rate ranged from 8.1% in the group of stable patients to 25% in those presenting with [[cardiogenic shock]] and to 65% in patients necessitating cardiopulmonary resuscitation. Major bleeding was reported in 92 patients (9.2%), but cerebral bleeding was uncommon (0.5%). Finally, a recurrent pulmonary embolism occurred in 172 patients (17%). | |||
2. '''ICOPER''' (International Cooperative Pulmonary Embolism Registry) (1999).<ref name="pmid10227218">{{cite journal|author=Goldhaber SZ, Visani L, De Rosa M |title=Acute pulmonary embolism: clinical outcomes in the International Cooperative Pulmonary Embolism Registry (ICOPER) |journal=Lancet |volume=353 |issue=9162 |pages=1386–9 |year=1999|month=April|pmid=10227218|doi= |url=http://linkinghub.elsevier.com/retrieve/pii/S0140673698075345 |accessdate=2012-01-13}}</ref> | |||
*''' Patient enrollment:''' 2454 | |||
*''' Inclusion criteria:''' 2110 (86.0%) patients had PE proven by necropsy, high-probability lung scan, pulmonary angiography, or venous ultrasonography plus a high clinical suspicion. ICOPER accepted, without independent review, diagnoses and interpretation of imaging provided by participating centers. A 3-month follow-up was completed in 98.0% of patients. | |||
*''' Purpose:''' Aim of identifying factors associated with death. | |||
*''' Result: ''' The overall crude mortality rate at 3 months was 17.4% (426 of 2454 deaths, including 52 patients lost to follow-up): 179 of 397 (45.1%) deaths were ascribed to PE and 70 of 397 (17.6%) to cancer. No information on the cause of death was available for 29 patients. On multiple-regression modeling, being over 70 years old (hazard ratio 1.6 [95% CI 1.1-2.3]), [[cancer]] (2.3 [1.5-3.5]), [[congestive heart failure]] (2.4 [1.5-3.7]), [[chronic obstructive pulmonary disease]] (1.8 [1.2-2.7]), systolic arterial [[hypotension]] (2.9 [1.7-5.0]), [[tachypnea]] (2.0 [1.2-3.2]), and right-ventricular [[hypokinesis]] on echocardiography, (2.0 [1.3-2.9]) were identified as significant prognostic factors. | |||
==== Echocardiography ==== | |||
1. Echocardiography Doppler in pulmonary embolism: right ventricular dysfunction as a predictor of mortality rate (1997). <ref name="pmid9327706">{{cite journal |author=Ribeiro A, Lindmarker P, Juhlin-Dannfelt A, Johnsson H, Jorfeldt L |title=Echocardiography Doppler in pulmonary embolism: right ventricular dysfunction as a predictor of mortality rate |journal=Am. Heart J. |volume=134 |issue=3 |pages=479–87 |year=1997 |month=September |pmid=9327706 |doi= |url=http://linkinghub.elsevier.com/retrieve/pii/S0002-8703(97)70085-1 |accessdate=2012-05-04}}</ref> | |||
* ''' Patient enrollment:''' 141 | |||
* ''' Inclusion criteria:''' (1) Patients with clinical suspicion of PE referred for diagnostic investigation at the site. (2) Diagnosis of PE confirmed by perfusion-ventilation scintigraphy (V-Q scan) and/or pulmonary angiography. (3) Transthoracic ED investigation performed on the same day as for the diagnosis of PE. | |||
* ''' Purpose:''' To test the hypothesis that the degree of RV systolic dysfunction, as assessed by ED at the time of diagnosis of PE, is a predictor of mortality rate during hospitalization as well as within 1 year. | |||
* '''Methods:''' RV function was assessed by evaluation of wall motion on a four-point scale. The material was divided into two groups: group A (n = 56) with normal or slightly reduced RV function and group B (n = 70) with moderately or severely reduced RV function. | |||
* '''Result:''' The overall mortality rate was 7.9% in the hospital and 15.1% within 1 year. Four deaths occurred in group A and 15 in group B (p = 0.04). All in-hospital deaths (n = 10) occurred in group B (p = 0.002). The variables associated with mortality rate were RV dysfunction and cancer (in-hospital, p = 0.002 and 0.004; 1 year, p = 0.04 and < 0.001, respectively). Nine (7.1%) deaths (all in-hospital) were caused by PE. Five of these patients had advanced-stage cancer. The in-hospital mortality rate in patients without cancer was 4%, all from PE, and all in group B. | |||
* ''' Conclusion:''' RV dysfunction, when diagnosis of PE is established, is associated with mortality rate. A strategy for risk stratification of patients with PE and ED may be of clinical value. | |||
2. Short-Term Clinical Outcome of Patients With Acute Pulmonary Embolism, Normal Blood Pressure, and Echocardiographic Right Ventricular Dysfunction (1999)<ref name="pmid10859287">{{cite journal |author=Grifoni S, Olivotto I, Cecchini P, Pieralli F, Camaiti A, Santoro G, Conti A, Agnelli G, Berni G |title=Short-term clinical outcome of patients with acute pulmonary embolism, normal blood pressure, and echocardiographic right ventricular dysfunction |journal=Circulation |volume=101 |issue=24 |pages=2817–22|year=2000|month=June |pmid=10859287 |doi= |url=http://circ.ahajournals.org/cgi/pmidlookup?view=long&pmid=10859287|accessdate=2012-05-04}}</ref> | |||
*'''Patient enrollment:''' 209 | |||
*'''Inclusion criteria:''' Objectively confirmed PE . | |||
*'''Purpose:''' Assess the prevalence and clinical outcome of normotensive patients with RV dysfunction among a broad spectrum of PE patients. | |||
*'''Methods:''' This prospective clinical outcome study included a cohort of 209 consecutive patients (age, 65±15 years) with documented PE. Acute RV dysfunction was diagnosed in the presence of ≥ 1 of the following: RV dilatation (without [[hypertrophy]]), paradox septal systolic motion, and Doppler evidence of [[pulmonary hypertension]]. Four groups were identified: 28 patients presenting with [[shock]] or [[cardiac arrest]] (13%), 19 hypotensive patients without shock (9%), 65 normotensive patients with echocardiographic RV dysfunction (31%), and 97 normotensive patients without RV dysfunction (47%). | |||
*'''Result:''' Among normotensive patients with RV dysfunction, 6 (10%) developed PE-related shock after admission: 3 of these patients died, and 3 were successfully treated with thrombolytic agents. In comparison, none of the 97 normotensive patients without RV dysfunction developed shock or died as a result of PE. | |||
3. Prognostic role of echocardiography among patients with acute pulmonary embolism and a systolic arterial pressure of 90 mm Hg or higher. (2005) <ref name="pmid16087827">{{cite journal |author=Kucher N, Rossi E, De Rosa M, Goldhaber SZ |title=Prognostic role of echocardiography among patients with acute pulmonary embolism and a systolic arterial pressure of 90 mm Hg or higher |journal=Arch. Intern. Med. |volume=165 |issue=15 |pages=1777–81 |year=2005 |pmid=16087827 |doi=10.1001/archinte.165.15.1777|url=http://archinte.ama-assn.org/cgi/pmidlookup?view=long&pmid=16087827 |accessdate=2012-05-04}}</ref> | |||
*'''Patient enrollment:''' 1035 patients with pulmonary embolism from the International Cooperative Pulmonary Embolism Registry. | |||
*'''Inclusion criteria:''' (1) Presented with systolic systemic arterial pressure of 90 mm Hg or higher. (2) Patients who underwent echocardiography within 24 hours of a diagnosis of a pulmonary embolism, showing presence (n = 405) or absence (n = 630) of RV [[hypokinesis]]. | |||
*'''Purpose:''' To measure the cumulative survival rate through 30 days in patients with and without RV hypokinesis. | |||
*'''Result:''' In patients with RV hypokinesis, the initial systolic systemic pressure was lower (125 ± 22 mm Hg vs 131 ± 22 mm Hg; P<.001), and the initial heart rate was higher (104 ± 21 beats per minute vs 99 ± 22 beats per minute; P<.001) than in patients without RV hypokinesis. [[Cancer]] was less often present (14.1% vs 22.5%, P = .001). The 30-day survival rates in patients with and without RV hypokinesis were 83.7% (95% confidence interval [CI], 79.3%-87.0%) and 90.6% (95% CI, 88.0%-92.6%), respectively (log-rank P value <.001). The univariate hazard ratio of RV hypokinesis for predicting 30-day mortality was 2.11 (95% CI, 1.41-3.16; P<.001). Right ventricular hypokinesis remained an independent predictor of 30-day mortality (hazard ratio, 1.94; 95% CI, 1.23-3.06) after adjusting for univariately significant predictors, including [[cancer]], [[congestive heart failure]], chronic [[lung disease]], age older than 70 years, systolic arterial pressure of 100 mm Hg or lower, administration of thrombolytic therapy, and heart rate greater than 100 beats per minutes. | |||
* '''Conclusion:''' Among patients with pulmonary embolism, who present with a systolic arterial pressure greater than or equal to 90 mm Hg, echocardiographic RV hypokinesis is an independent predictor of early death. | |||
4. Prognostic value of echocardiographic right/left ventricular end-diastolic diameter ratio in patients with acute pulmonary embolism. (2008) <ref name="pmid17951624">{{cite journal |author=Frémont B, Pacouret G, Jacobi D, Puglisi R, Charbonnier B, de Labriolle A |title=Prognostic value of echocardiographic right/left ventricular end-diastolic diameter ratio in patients with acute pulmonary embolism: results from a monocenter registry of 1,416 patients |journal=Chest |volume=133 |issue=2 |pages=358–62|year=2008 |month=February |pmid=17951624 |doi=10.1378/chest.07-1231 |url=http://www.chestjournal.org/cgi/pmidlookup?view=long&pmid=17951624 |accessdate=2012-05-04}}</ref> | |||
*'''Patient enrollment:''' 950 (Registry data on 1,416 from Trousseau hospital (Tours, France) pulmonary embolism registry data for January 1, 1992, through June 30, 2005). | |||
*'''Inclusion criteria:''' (1) Patients presenting with pulmonary embolism confirmed by high-probability ventilation-perfusion lung scan as per the criteria defined by the Prospective Investigation of Pulmonary Embolism Diagnosis study, or accompanied by venous Doppler ultrasound confirming vein thrombosis for the other cases; pulmonary angiography or chest CT. (2) Echocardiographic assessment within 24 hours of hospital admission. (3) Determination of RV/LV ratio. | |||
*'''Purpose:''' To determine the prognostic value of a single quantitative echocardiographic criterion, the right/left ventricular end-diastolic diameter (RV/LV) ratio. | |||
*'''Result:''' The hospital mortality rate for the series was 3.3%. Sensitivity and specificity of RV/LV ratio ≥ 0.9 for predicting hospital mortality were 72% and 58%, respectively. Multivariate analysis showed the independent predictive factors for hospital mortality to be the following: systolic BP < 90 mm Hg (odds ratio [OR], 10.73; p < 0.0001), history of left heart failure (OR, 8.99; p < 0.0001), and RV/LV ratio ≥ 0.9 (OR, 2.66; p = 0.01). | |||
* '''Conclusion:''' An echocardiographic RV/LV ratio ≥ 0.9 was shown to be an independent predictive factor for hospital mortality. This criterion may be of value in selecting cases of submassive pulmonary embolism with a poor prognosis that are liable to benefit from thrombolytic treatment. | |||
5. Prognostic importance of quantitative echocardiographic evaluation in patients suspected of first non-massive pulmonary embolism. (2009) <ref name="pmid18579484">{{cite journal |author=Kjaergaard J, Schaadt BK, Lund JO, Hassager C |title=Prognostic importance of quantitative echocardiographic evaluation in patients suspected of first non-massive pulmonary embolism |journal=Eur J Echocardiogr|volume=10 |issue=1 |pages=89–95 |year=2009 |month=January |pmid=18579484 |doi=10.1093/ejechocard/jen169|url=http://ejechocard.oxfordjournals.org/cgi/pmidlookup?view=long&pmid=18579484 |accessdate=2012-05-05}}</ref> | |||
*'''Patient enrollment:''' 283 | |||
*'''Inclusion criteria:''' Patients referred for ventilation/perfusion scintigraphy (V/Q scan) on suspicion of first non-massive PE. | |||
*'''Purpose:''' To determine the prognostic implication of routine echocardiography in patients suspected of PE. | |||
*'''Result:''' Patients with PE and normal V/Q scans had similar age-adjusted 1 year mortality [10 and 12%, NS (not significant)], although patients with indeterminate scans carried a poorer prognosis (16% survival, P=0.0004). Among all patients, left ventricular (LV) ejection fraction, as well as shortening of the pulmonary artery (PA) acceleration time, (a measure of RV after-load) was associated with increased mortality [hazard ratio (HR)=0.84 per 10 ms increase, P<0.0001]. In patients with confirmed PE, the PA acceleration time is predictive of event-free survival (all-cause mortality and heart failure hospitalizations) adjusted for LV ejection fraction, age, and sex (HR=0.78 per 10 ms increase, P=0.04). Measures of regional myocardial function were not related to outcome in this study, regardless of the presence of PE. | |||
* '''Conclusion:''' Acceleration time and LV systolic function are independent predictors of mortality in patients suspected of PE. They are also independent predictors of event-free survival in patients with a confirmed PE. | |||
==== Computed Tomography ==== | |||
1. Helical CT pulmonary angiography predictors of in-hospital morbidity and mortality in patients with acute pulmonary embolism. (2003) <ref name="pmid14561905">{{cite journal |author=Araoz PA, Gotway MB, Trowbridge RL, Bailey RA, Auerbach AD, Reddy GP, Dawn SK, Webb WR, Higgins CB |title=Helical CT pulmonary angiography predictors of in-hospital morbidity and mortality in patients with acute pulmonary embolism |journal=J Thorac Imaging |volume=18 |issue=4 |pages=207–16 |year=2003 |month=October |pmid=14561905 |doi= |url=http://meta.wkhealth.com/pt/pt-core/template-journal/lwwgateway/media/landingpage.htm?issn=0883-5993&volume=18&issue=4&spage=207 |accessdate=2012-05-05}}</ref> | |||
*'''Patient enrollment:''' 173 | |||
*'''Inclusion criteria:''' CT scans positive for PE. | |||
*'''Purpose:''' To determine if CT variables predict in-hospital morbidity and mortality in patients with pulmonary embolism (PE). | |||
*'''Methods:''' CT scans and charts of 173 patients with CT scans positive for PE were reviewed. CT scans were reviewed for leftward ventricular [[septal bowing]], increased right ventricle (RV) to left ventricle (LV) diameter ratio, [[clot burden]], increased [[pulmonary artery]] to [[aorta]] diameter ratio, and [[oligemia]]. Charts were reviewed for severe morbidity and mortality outcomes: death from pulmonary emboli or any cause, and cardiac arrest. Charts were also reviewed for milder morbidity outcomes: [[intubation]], [[vasopressor]] use, or admission to an intensive care unit (ICU) and for multiple comorbidities. | |||
*''' Result: ''' No CT predictor was significantly associated with severe morbidity or mortality outcomes. Ventricular septal bowing and increased RV/LV diameter ratio were both associated with subsequent admission to an ICU (P = 0.004 and P = 0.025, respectively). [[Oligemia]] (either lung) was associated with subsequent intubation; right lung oligemia was associated with the subsequent use of vasopressors. After controlling for history of [[congestive heart failure]], [[ischemic heart disease]], and [[pulmonary disease]], both [[septal bowing]] and an increased RV/LV diameter ratio remained associated with admission to an ICU. | |||
*'''Conclusion:''' No CT variables predicted severe in-hospital morbidity and mortality (death from pulmonary embolism, death from any cause, or cardiac arrest) in patients with PE. However, ventricular septal bowing and increased RV/LV diameter ratio were both strongly predictive of less severe morbidity, namely, subsequent ICU admission. Oligemia was associated with subsequent intubation and vasopressor use. | |||
2. Right ventricular enlargement on chest computed tomography: prognostic role in acute pulmonary embolism. (2004) <ref name="pmid15148278">{{cite journal |author=Quiroz R, Kucher N, Schoepf UJ, Kipfmueller F, Solomon SD, Costello P, Goldhaber SZ |title=Right ventricular enlargement on chest computed tomography: prognostic role in acute pulmonary embolism |journal=Circulation |volume=109 |issue=20 |pages=2401–4 |year=2004 |month=May |pmid=15148278 |doi=10.1161/01.CIR.0000129302.90476.BC |url=http://circ.ahajournals.org/cgi/pmidlookup?view=long&pmid=15148278 |accessdate=2012-05-05}}</ref>. | |||
*'''Patient enrollment:''' 63 | |||
*'''Inclusion criteria:''' Patients with CT-confirmed PE who underwent echocardiography within the ensuing 24 hours. | |||
*'''Purpose:''' To investigate the prognostic role of right ventricular enlargement on multidetector-row chest CT in acute pulmonary embolism (PE). | |||
*'''Methods:''' Off-line CT measurements of right and left ventricular dimensions (RVD, LVD) with axial and 2-dimensional reconstructed 4-chamber (4-CH) views were performed. | |||
*'''Result:''' The proportion of patients with RVD/LVD > 0.9 on the axial view was similar in patients with (70.8%) and without adverse events (71.8%; P=0.577). In contrast, RVD/LVD > 0.9 on the 4-CH view was more common in patients with (80.3%) than without (51.3%; P=0.015) adverse events. The area under the curve of RVD/LVD from the axial and 4-CH views for predicting adverse events was 0.667 and 0.753, respectively. Sensitivity and specificity of RVD/LVD > 0.9 for predicting adverse events were 37.5% and 92.3% on the axial view and 83.3% and 48.7% on the reconstructed 4-CH view, respectively. RVD/LVD > 0.9 on the 4-CH view was an independent predictor for adverse events (OR, 4.02; 95% CI, 1.06 to 15.19; P=0.041) when adjusted for age, [[obesity]], [[cancer]], and recent surgery. | |||
*'''Conclusion:''' Right ventricular enlargement on the reconstructed CT 4-CH views predicts adverse clinical events in patients with acute PE. Ventricular CT measurements obtained from 4-CH views are superior to those from axial views for identifying high-risk patients. | |||
3. Right ventricular enlargement on chest computed tomography: a predictor of early death in acute pulmonary embolism. (2004) <ref name="pmid15533868">{{cite journal |author=Schoepf UJ, Kucher N, Kipfmueller F, Quiroz R, Costello P, Goldhaber SZ |title=Right ventricular enlargement on chest computed tomography: a predictor of early death in acute pulmonary embolism |journal=Circulation |volume=110 |issue=20 |pages=3276–80 |year=2004 |month=November |pmid=15533868 |doi=10.1161/01.CIR.0000147612.59751.4C |url=http://circ.ahajournals.org/cgi/pmidlookup?view=long&pmid=15533868 |accessdate=2012-05-05}}</ref> | |||
*'''Patient enrollment:''' 431 (mean age, 59+/-16 years; 55% women). | |||
*'''Inclusion criteria:''' Acute PE confirmed by multidetector-row chest CT. | |||
*'''Purpose:''' To investigate the prognostic role of right ventricular enlargement on multidetector-row chest CT in acute pulmonary embolism (PE). | |||
*'''Methods:''' With the use of multiplanar reformats of axial CT data, CT 4-chamber (4-CH) views were reconstructed. Right and left ventricular dimensions (RV(D), LV(D)) were measured. | |||
*''' Result:''' RV enlargement, defined as RV(D)/LV(D) > 0.9, was present in 276 (64.0%; 95% CI, 59.5% to 68.6%) patients. The thirty-day mortality rate was 15.6% (95% CI, 11.3% to 19.9%) in patients with and 7.7% (95% CI, 3.5% to 12.0%) without RV enlargement (log rank, P=0.018). The hazard ratio of RV(D)/LV(D) > 0.9 for predicting 30-day death was 3.36 (95% CI, 1.13 to 9.97; P=0.029). On multivariable analysis, RV enlargement predicted 30-day death (hazard ratio, 5.17; 95% CI, 1.63 to 16.35; P=0.005) after adjusting for pneumonia (hazard ratio, 2.95; 95% CI, 1.19 to 3.83; P=0.002), cancer (hazard ratio, 2.13; 95% CI, 1.19 to 3.83; P=0.011), chronic lung disease (hazard ratio, 2.00; 95% CI, 1.04 to 3.86; P=0.039), and age (hazard ratio, 1.03; 95% CI, 1.01 to 1.05; P=0.005). | |||
*'''Conclusion:''' In patients with acute PE, RV enlargement on reconstructed CT 4-CH view helps predict early death. | |||
4. Pulmonary embolism: prognostic CT findings. (2007) <ref name="pmid17325073">{{cite journal |author=Araoz PA, Gotway MB, Harrington JR, Harmsen WS, Mandrekar JN |title=Pulmonary embolism: prognostic CT findings |journal=Radiology |volume=242 |issue=3 |pages=889–97 |year=2007 |month=March |pmid=17325073 |doi=10.1148/radiol.2423051441 |url=http://radiology.rsnajnls.org/cgi/pmidlookup?view=long&pmid=17325073 |accessdate=2012-05-05}}</ref> | |||
*'''Patient enrollment:''' 1193 | |||
*'''Inclusion criteria:''' Patients with CT scans positive for PE from January 1, 1997, to December 31, 2002, who had given authorization for retrospective research. | |||
*'''Purpose:''' To retrospectively determine whether three computed tomographic (CT) findings-ventricular septal bowing (VSB), the ratio between the diameters of the right and left ventricles, and embolic burden-are associated with short-term death, defined as in-hospital death or death within 30 days of CT, whichever was longer, due to an acute pulmonary embolism (PE). | |||
*'''Methods:''' Scans were independently reviewed by two observers. CT findings were compared with risk of death by using univariate analysis (chi(2) statistic) and multivariate logistic regression. Interobserver variability (kappa statistic or intraclass correlation coefficient), sensitivity, and specificity of CT findings for predicting death were calculated. A third observer reviewed discrepant cases post hoc. | |||
*'''Result:''' Fifty-four percent of patients were women and 46% were men (mean age, 63 years +/- 16). For observer 1, VSB was associated with death in univariate (odds ratio [OR], 1.98; P = .04) and multivariate modeling (OR, 1.97; P = .05). Interobserver variability was only fair (kappa = 0.54) for VSB, and observer 2 found no association with death (OR, 1.52; P = .22). For both observers, VSB had low sensitivity (21% and 18%) and high specificity (88% and 87%) for predicting death. Neither RV/LV diameter ratio nor embolic burden were associated with an increased risk of death. For observer 3, VSB was associated with death in univariate (OR, 2.10; P = .05) and multivariate analyses (OR, 2.18; P = .05). | |||
*'''Conclusion:''' CT-depicted VSB is predictive of death due to PE, but with low sensitivity and high interobserver variability. RV/LV diameter ratio and embolic burden are not associated with short-term death due to PE. | |||
==== Prognostic Markers ==== | |||
1. Derivation and validation of a prognostic model for pulmonary embolism. (2005) <ref name="pmid16020800">{{cite journal|author=Aujesky D, Obrosky DS, Stone RA, Auble TE, Perrier A, Cornuz J, Roy PM, Fine MJ |title=Derivation and validation of a prognostic model for pulmonary embolism |journal=Am. J. Respir. Crit. Care Med. |volume=172 |issue=8 |pages=1041–6 |year=2005|month=October |pmid=16020800 |pmc=2718410 |doi=10.1164/rccm.200506-862OC |url=http://ajrccm.atsjournals.org/cgi/pmidlookup?view=long&pmid=16020800 |accessdate=2012-05-04}}</ref> | |||
* ''' Patient enrollment:''' 10,354 discharged patients (67%) for the derivation and 5,177 (33%) for the internal validation sample. 221 patients for external validation. | |||
* ''' Inclusion criteria:''' Discharged patients with PE for the internal validation sample. Inpatients prospectively diagnosed with PE, using spiral computed tomography for external validation. | |||
* ''' Purpose:''' To develop a clinical prediction rule that accurately classifies patients with pulmonary embolism into categories of increasing risk of mortality and other adverse medical outcomes. Compared mortality and nonfatal adverse medical outcomes across the derivation and two validation samples. | |||
* '''Result:''' Prediction rule is based on 11 simple patient characteristics that were independently associated with mortality and stratifies patients with pulmonary embolism into five severity classes, with 30-day mortality rates of 0-1.6% in class I, 1.7-3.5% in class II, 3.2-7.1% in class III, 4.0-11.4% in class IV, and 10.0-24.5% in class V across the derivation and validation samples. Inpatient death and nonfatal complications were < or = 1.1% among patients in class I and < or = 1.9% among patients in class II. | |||
=== Trials Assessing Treatment === | |||
==== Trials Assessing the Role of Anticoagulant in Treatment ==== | |||
'''Anticoagulant Drugs in the Treatment of Pulmonary Embolism: A Controlled Trial''' (1960). <ref name="pmid13797091">{{cite journal |author=BARRITT DW, JORDAN SC |title=Anticoagulant drugs in the treatment of pulmonary embolism. A controlled trial |journal=Lancet |volume=1 |issue=7138 |pages=1309–12 |year=1960 |month=June |pmid=13797091 |doi= |url= |accessdate=2012-04-27}}</ref> | |||
*'''Patient enrollment:''' 73 | |||
*'''Inclusion criteria:''' Diagnosis of PE with no contraindications to anticoagulants. | |||
*'''Purpose:''' Assessing the role of [[heparin]] in treatment. | |||
*'''Result:''' Study concluded that when a patient has had a pulmonary embolism, [[heparin]] and [[Dicumarol|nicoumalone]] reduce the risk of death from that embolism. The likelihood of recurrent embolism is also diminished. | |||
==== Trials Assessing the Efficacy of Urokinase Compared to Heparin Alone ==== | |||
'''UPET''' (Urokinase in Pulmonary Embolism Trial) (1970). <ref name="pmid5536580">{Ч{cite journal |author= |title=Urokinase pulmonary embolism trial. Phase 1 results: a cooperative study |journal=JAMA |volume=214 |issue=12 |pages=2163–72 |year=1970 |month=December |pmid=5536580 |doi= |url= |accessdate=2012-04-27}}</ref> It was the first RCT to assess the role of thrombolytics in PE | |||
*'''Patient enrollment:''' 160 (78 received anticoagulants alone, and 82 received urokinase followed by anticoagulants). | |||
*'''Inclusion criteria:''' Angiographically‐proven pulmonary embolism. | |||
*'''Purpose:''' To determine whether abnormalities, produced by the presence of obstructing emboli in the pulmonary circulation, and measured by lung scanning, pulmonary arteriography, and hemodynamic factors, are returned toward normal more rapidly with a [[urokinase]] regimen as compared to anticoagulant therapy alone. | |||
* '''Results :''' The degree of improvement in patients receiving urokinase was significantly greater, however, the serial perfusion scan done beyond 24 hours showed that the difference progressively decreased, such that no difference was found at 5 or 14 days or at 3, 6, or 12 months. | |||
==== Trial Comparing Streptokinase with Urokinase ==== | |||
'''USPET''' (Urokinase-streptokinase embolism trial) (1974) <ref name="pmid4408392">{{cite journal |author= |title=Urokinase-streptokinase embolism trial. Phase 2 results. A cooperative study |journal=JAMA |volume=229 |issue=12 |pages=1606–13 |year=1974 |month=September |pmid=4408392 |doi= |url= |accessdate=2012-05-05}}</ref> | |||
*'''Patient enrollment:''' 167 thrombolytic treatment in pulmonary embolism. | |||
*'''Inclusion criteria:''' Angiographically‐proven pulmonary embolism. | |||
*'''Purpose:''' To evaluate thrombolytic agents in the treatment of pulmonary embolism. | |||
*'''Methods:''' One hundred sixty-seven patients were randomized for treatment with 12 hours of [[urokinase]], 24 hours of urokinase, or 24 hours of streptokinase in this second phase of the study. Resolution of thromboemboli was determined by pulmonary angiograms, lung scans, and [[hemodynamics]]. | |||
*'''Results:''' The clot resolution with 24 hours of urokinase was equal to that with 12 hours of urokinase therapy. Twenty-four hours of urokinase therapy resulted in greater improvement than streptokinase therapy. This was seen in scans, but not in angiograms. In a massive embolism, this difference was statistically significant. Hemodynamic differences varied. There was no significant difference in mortality. Drug-related morbidity was minimal. All three regimens are more effective in accelerating the resolution of pulmonary thromboemboli than heparin sodium alone was in the phase 1 trial. | |||
==== Trial Comparing Streptokinase with Heparin ==== | |||
Comparison of streptokinase and heparin in treatment of isolated acute massive pulmonary embolism. (1971) <ref name="pmid5556052">{{cite journal |author=Miller GA, Sutton GC, Kerr IH, Gibson RV, Honey M |title=Comparison of streptokinase and heparin in treatment of isolated acute massive pulmonary embolism |journal=Br Med J |volume=2 |issue=5763 |pages=681–4 |year=1971 |month=June |pmid=5556052 |pmc=1796248 |doi= |url= |accessdate=2012-05-04}}</ref> | |||
*'''Patient enrollment:''' 23 | |||
*'''Inclusion criteria:''' Angiographically‐proven pulmonary embolism. | |||
*'''Purpose:''' To determine the rate of resolution in a selected series of patients after 72 hours' treatment with either heparin or streptokinase. | |||
*'''Methods:''' Massive pulmonary embolism was confirmed by pulmonary arteriography in 23 patients. All were seen between 2 and 48 hours after the onset of embolism and none had pre-existing cardiorespiratory disease. Fifteen were treated with streptokinase and eight with heparin. | |||
* '''Results :''' Only two patients treated with streptokinase showed a less than 20% improvement in the angiographic index of severity. No heparin-treated patient improved by as much as 20%. | |||
==== Trial Comparing Recombinant Tissue Plasminogen Activator with Urokinase ==== | |||
Randomised controlled trial of recombinant tissue plasminogen activator versus urokinase in the treatment of acute pulmonary embolism. (1988) <ref name="pmid2899718">{{cite journal| author=Goldhaber SZ, Kessler CM, Heit J, Markis J, Sharma GV, Dawley D et al.| title=Randomised controlled trial of recombinant tissue plasminogen activator versus urokinase in the treatment of acute pulmonary embolism. | journal=Lancet | year= 1988 | volume= 2 | issue= 8606 | pages= 293-8 | pmid=2899718 | doi= | pmc= | url= }} </ref> | |||
*'''Patient enrollment:''' 45 | |||
*'''Inclusion criteria:''' Angiographically‐proven pulmonary embolism. | |||
*'''Purpose:''' To determine the effect of intravenous recombinant human tissue-type plasminogen activator (rt-PA) was compared with that of urokinase. | |||
*'''Methods:''' The two principal end-points were clot lysis at 2 hours, as assessed by angiography, and pulmonary reperfusion at 24 hours, as assessed by perfusion lung scanning. All patients received the full dose of rt-PA but urokinase infusions were terminated prematurely (on average after 18 h) in 9 patients because of allergies in 1 and uncontrollable bleeding in 8. | |||
* '''Results:''' By 2 hours, 82% of rt-PA-treated patients showed clot lysis, compared with 48% of urokinase-treated patients (p = 0.008; 95% CI for the difference = 10-58%). Improvement in lung scan reperfusion at 24 hours was identical in the two treatment groups. The reduction in [[fibrinogen]] did not differ significantly between the rt-PA and urokinase groups (45% vs 39% at 2 h and 34% vs 40% at 24 h). | |||
* '''Conclusion:''' The results indicate that in the dose regimens employed, rt-PA acts more rapidly and is safer than urokinase in the treatment of acute PE. | |||
==== Trial Comparing Low-Molecular-Weight Heparin With Standard Heparin ==== | |||
Treatment of acute venous thromboembolism with low molecular weight heparin (Fragmin) (1989) <ref name="pmid2551537">{{cite journal |author=Albada J, Nieuwenhuis HK, Sixma JJ |title=Treatment of acute venous thromboembolism with low molecular weight heparin (Fragmin). Results of a double-blind randomized study |journal=Circulation |volume=80 |issue=4 |pages=935–40 |year=1989 |month=October |pmid=2551537 |doi= |url=http://circ.ahajournals.org/cgi/pmidlookup?view=long&pmid=2551537 |accessdate=2012-05-02}}</ref> | |||
*'''Patient enrollment:''' 194. | |||
*'''Inclusion criteria:''' All patients with clinical symptoms of deep venous thrombosis of the leg, axillary vein thrombosis, or pulmonary embolism were eligible for the study. | |||
*'''Purpose:''' To determine the safety and efficacy of low molecular weight heparin (Fragmin) compared with standard heparin as the initial treatment of acute venous thromboembolism. | |||
*'''Methods:''' Ninety-eight patients received continuous intravenous heparin, and 96 patients received Fragmin for 5-10 days. Doses were adjusted to maintain anti-Xa levels between 0.3 and 0.6 unit/ml for patients with a high risk for a bleeding complication and between 0.4 and 0.9 unit/ml for patients with a low risk for bleeding. Treatment was stopped when a therapeutic level of anticoagulation (INR > 3.5) was reached with [[coumarin]]s. | |||
*'''Results:''' Thirteen patients in the heparin group and 10 patients in the Fragmin group had a major bleeding complication. The incidence of major and minor bleeding complications combined decreased from 48.9% to 38.5% (95% confidence interval for the difference, -3.5% to +24.2%), corresponding with a relative bleeding risk reduction of 21.2%. There were no significant differences in efficacy as defined by new high-probability defects on repeat ventilation-perfusion scintigraphy of the lung in 80 patients: six of 46 patients in the heparin group and 3 of 34 patients in the Fragmin group had new defects (95% confidence interval for the difference, -9.4% to +17.8%). | |||
*'''Conclusion:''' Low molecular weight heparin (Fragmin) given in adjusted, continuous, and intravenous doses is safe and effective as initial treatment of acute venous thromboembolism compared with heparin. There is a trend in risk reduction for bleeding in favor of low molecular weight heparin, a trend, however, that is smaller than expected compared with animal studies. | |||
==== Trial Comparing Low-molecular-Weight Heparin With Unfractionated Heparin ==== | |||
'''THESEE''' (A comparison of low-molecular-weight heparin with unfractionated heparin for acute pulmonary embolism). (1997) <ref name="pmid9278462">{{cite journal |author=Simonneau G, Sors H, Charbonnier B, Page Y, Laaban JP, Azarian R, Laurent M, Hirsch JL, Ferrari E, Bosson JL, Mottier D, Beau B |title=A comparison of low-molecular-weight heparin with unfractionated heparin for acute pulmonary embolism. The THESEE Study Group. Tinzaparine ou Heparine Standard: Evaluations dans l'Embolie Pulmonaire |journal=N. Engl. J. Med. |volume=337 |issue=10 |pages=663–9 |year=1997 |month=September |pmid=9278462 |doi=10.1056/NEJM199709043371002 |url=http://dx.doi.org/10.1056/NEJM199709043371002 |accessdate=2012-04-27}}</ref> | |||
* '''Patient enrollment:''' 612 patients (Mean Patient Age: 67 years / % Female: 55 ) | |||
*''' Inclusion criteria:''' Individuals over the age of 18 who presented with acute pulmonary embolism documented by [[pulmonary angiography]], high probability ventilation-perfusion imaging, or by intermediate probability ventilation-perfusion imaging and a [[deep venous thrombosis]] diagnosed by [[venography]] or [[ultrasound]]. | |||
*''' Purpose:''' The goal of this study was to assess the safety and efficacy of anticoagulation with [[tinzaparin]], a low-molecular-weight heparin (LMWH), compared to unfractionated heparin among patients with acute symptomatic pulmonary embolism. | |||
*''' Result:''' Initial subcutaneous therapy with the low-molecular-weight heparin tinzaparin appeared to be as effective and safe as intravenous unfractionated heparin in patients with acute pulmonary embolism. | |||
===Trial Comparing Reteplase versus Alteplase=== | |||
Hemodynamic effects of double bolus reteplase versus alteplase infusion in massive pulmonary embolism. (1999) <ref name="pmid10385761">{{cite journal |author=Tebbe U, Graf A, Kamke W, Zahn R, Forycki F, Kratzsch G, Berg G |title=Hemodynamic effects of double bolus reteplase versus alteplase infusion in massive pulmonary embolism |journal=Am. Heart J. |volume=138 |issue=1 Pt 1 |pages=39–44 |year=1999 |month=July |pmid=10385761 |doi= |url=http://linkinghub.elsevier.com/retrieve/pii/S0002-8703(99)70243-7 |accessdate=2012-05-06}}</ref> | |||
*'''Patient enrollment:''' 36 | |||
*'''Inclusion criteria:''' Individuals aged between 18 and 75 years, having distinct clinical symptoms of massive pulmonary embolism in the preceding 5 days, and increased mean pulmonary pressure above 25 mm Hg. They also presented with an obliteration of at least one branch or several lobe arteries detected by pulmonary angiography. | |||
*'''Purpose:''' The goal of this study was to measure the efficacy and safety of reteplase with the approved regimen of alteplase in massive pulmonary embolism. | |||
*'''Method:''' Thirty-six patients were enrolled and randomly assigned: 23 received reteplase and 13 received alteplase along with intravenous heparin. Reteplase was administered as 2 intravenous bolus injections of 10 U 30 minutes apart, and alteplase was administered as an intravenous infusion of a total dose of 100 mg over a 2-hour period, including an initial 10-mg bolus. Diagnosis of a pulmonary embolism was confirmed by selective pulmonary angiography. Hemodynamic monitoring was conducted during the first 24 hours after administration. The primary end point was changed in total pulmonary resistance. Secondary variables were pulmonary pressure, cardiac index, clinical parameters, and adverse events | |||
*'''Result:''' The primary parameter of total pulmonary resistance showed a significant decrease after just 0.5 hours in the reteplase group and after 2 hours in the alteplase group, with a further decrease persisting for up to 24 hours in both treatment groups. A similar pattern was seen in other directly measured hemodynamic parameters, especially mean pulmonary artery pressure and cardiac index; there was no significant difference between reteplase and alteplase. There was also no apparent difference between the treatment groups with respect to safety, and no [[stroke]] or [[intracranial hemorrhage]] occurred. The rate of bleedings and the incidence of nonhemorrhagic adverse events were as expected for patients with a pulmonary embolism treated with a thrombolytic agent. | |||
* '''Conclusions:''' Reteplase is suitable for the treatment of a massive pulmonary embolism with a standard double bolus 10 + 10 U. Efficacy of reteplase appeared to be at least as good at decreasing pulmonary vascular resistance as that of the approved alteplase regimen of 100 mg infusion over a 2-hour period. | |||
==== Trial Comparing Low-Molecular-Weight Heparin With Alteplase for Acute Submassive PE ==== | |||
Heparin plus alteplase compared with heparin alone in patients with submassive pulmonary embolism. (2002) <ref name="pmid12374874">{{cite journal |author=Konstantinides S, Geibel A, Heusel G, Heinrich F, Kasper W |title=Heparin plus alteplase compared with heparin alone in patients with submassive pulmonary embolism |journal=N. Engl. J. Med. |volume=347 |issue=15 |pages=1143–50 |year=2002 |month=October |pmid=12374874 |doi=10.1056/NEJMoa021274 |url=http://dx.doi.org/10.1056/NEJMoa021274 |accessdate=2012-05-06}}</ref> | |||
*'''Patient enrollment:''' 256 patients enrolled, 118 were randomly assigned to receive heparin plus alteplase and 138 to receive heparin plus placebo. | |||
*'''Inclusion criteria:''' To be included in the trial, patients with acute pulmonary embolism had to fulfill at least one of the following criteria, which were defined a priority: | |||
# Echocardiographically detected right ventricular dysfunction (defined as right ventricular enlargement combined with loss of inspiratory collapse of the inferior vena cava, without left ventricular or mitral-valve disease); | |||
# Echocardiographically detected pulmonary-artery hypertension (defined as a tricuspid regurgitant jet velocity greater than 2.8 m per second), followed by confirmation of pulmonary embolism (by ventilation–perfusion lung scanning, spiral computed tomography [CT], or pulmonary angiography); | |||
# A diagnosis of precapillary pulmonary hypertension based on catheterization of the right side of the heart, defined as a mean pulmonary-artery pressure above 20 mm Hg and a pulmonary-capillary wedge pressure below 18 mm Hg, followed by confirmation of pulmonary embolism; | |||
# New electrocardiographic signs of right ventricular strain (defined as complete or incomplete right bundle-branch block, S waves in lead I combined with Q waves in lead III, or inverted T waves in precordial leads V1, V2, and V3), followed by confirmation of pulmonary embolism. | |||
*'''Purpose:''' The goal of this study was to compare the effects of treatment with heparin plus alteplase with the effects of heparin plus placebo on the outcome of patients with acute submassive pulmonary embolism. | |||
*'''Result:''' Of 256 patients enrolled, 118 were randomly assigned to receive heparin plus [[alteplase]] and 138 to receive heparin plus placebo. The incidence of the primary end point was significantly higher in the heparin-plus-placebo group than in the heparin-plus-alteplase group (P=0.006), and the probability of 30-day event-free survival (according to Kaplan-Meier analysis) was higher in the heparin-plus-alteplase group (P=0.005). This difference was due to the higher incidence of treatment escalation in the heparin-plus-placebo group (24.6 percent vs. 10.2 percent, P=0.004), since mortality was low in both groups (3.4 percent in the heparin-plus-alteplase group and 2.2 percent in the heparin-plus-placebo group, P=0.71). Treatment with heparin plus placebo was associated with almost three times the risk of death or treatment escalation that was associated with heparin plus alteplase (P=0.006). No fatal bleeding or cerebral bleeding occurred in patients receiving heparin plus alteplase. | |||
*'''Conclusion:''' When given in conjunction with heparin, alteplase can improve the clinical course of stable patients who have acute submassive pulmonary embolism and can prevent clinical deterioration requiring the escalation of treatment during the hospital stay. | |||
==== Trials Assessing the Efficacy of LMWH in Reducing Mortality in Acutely Ill Patients ==== | |||
1. Subcutaneous enoxaparin once or twice daily compared with intravenous unfractionated heparin for treatment of venous thromboembolic disease. (2001) <ref name="pmid11177331">{{cite journal |author=Merli G, Spiro TE, Olsson CG, Abildgaard U, Davidson BL, Eldor A, Elias D, Grigg A, Musset D, Rodgers GM, Trowbridge AA, Yusen RD, Zawilska K |title=Subcutaneous enoxaparin once or twice daily compared with intravenous unfractionated heparin for treatment of venous thromboembolic disease |journal=Ann. Intern. Med. |volume=134 |issue=3 |pages=191–202 |year=2001 |month=February |pmid=11177331 |doi= |url=http://www.annals.org/cgi/pmidlookup?view=long&pmid=11177331 |accessdate=2012-05-02}}</ref> | |||
*'''Patient enrollment:''' 900 (74 hospitals in 16 countries.) | |||
*'''Inclusion criteria:''' Symptomatic lower-extremity deep venous thrombosis, and with confirmed pulmonary embolism. | |||
*'''Purpose:''' To determine whether subcutaneous [[enoxaparin]] administered once or twice daily is as effective as continuously infused unfractionated heparin in acute symptomatic venous thromboembolic disease. | |||
*'''Result:''' Equivalent efficacy was seen in the heparin group and both enoxaparin groups. Symptomatic venous thromboembolism recurred in 12 of 290 patients receiving unfractionated heparin (4.1%), 13 of 298 patients receiving once-daily enoxaparin (4.4%), and 9 of 312 patients receiving twice-daily enoxaparin (2.9%). Compared with unfractionated heparin, the treatment difference was 0.2% (95% CI, -3.04% to 3.49%) for once-daily enoxaparin and -1.2% (CI, -4.2% to 1.7%) for twice-daily enoxaparin. Incidence of major hemorrhage did not differ among the three treatment groups. Major hemorrhage occurred in 6 of 290 patients (2.1%) in the unfractionated heparin group, 5 of 298 patients (1.7%) in the once-daily enoxaparin group, and 4 of 312 patients (1.3%) in the twice-daily enoxaparin group. | |||
* '''Conclusion:''' Subcutaneous enoxaparin, once or twice daily, is as effective and safe as dose-adjusted, continuously infused unfractionated heparin in the prevention of recurrent symptomatic venous thromboembolic disease. | |||
2. '''LIFENOX''' (Study to Evaluate the Mortality Reduction of Enoxaparin in Hospitalized Acutely Ill Medical Receiving Enoxaparin) (2011).<ref name="pmid22204723">{{cite journal |author=Kakkar AK, Cimminiello C, Goldhaber SZ, Parakh R, Wang C, Bergmann JF |title=Low-molecular-weight heparin and mortality in acutely ill medical patients|journal=N. Engl. J. Med. |volume=365 |issue=26 |pages=2463–72 |year=2011 |month=December |pmid=22204723|doi=10.1056/NEJMoa1111288 url=http://www.nejm.org/doi/abs/10.1056/NEJMoa1111288?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed |accessdate=2012-01-13}}</ref> | |||
(ClinicalTrials.gov number, NCT00622648). | (ClinicalTrials.gov number, NCT00622648). | ||
*''' | *'''Patient enrollment:''' 8307 | ||
*''' | *'''Inclusion criteria:''' Age ≥ 40 years and hospitalization for acute decompensated heart failure, severe systemic infection with at least one risk factor for venous thromboembolism, or active cancer. | ||
*''' | *'''Purpose:''' To asses the effect of subcutaneous enoxaparin (40 mg daily) as compared with placebo--both administered for 10±4 days in patients who were wearing elastic stockings with graduated compression--on the rate of death from any cause among hospitalized, acutely ill medical patients at participating sites in China, India, Korea, Malaysia, Mexico, the Philippines, and Tunisia. | ||
*'''Result:''' Enoxaparin plus elastic stockings with graduated compression, failed to show any reduction in the rate of death from any cause among hospitalized, acutely ill medical patients, when compared to elastic stockings with graduated compression alone. | |||
==== Trial Assessing the Role of Aspirin in Reducing the In-Hospital Morbidity due to VTE in High-Risk Patients Undergoing Major Surgery ==== | |||
''' (PEP) ''' Pulmonary Embolism Prevention Trial (2000) <ref name="pmid10776741">{{cite journal |author= |title=Prevention of pulmonary embolism and deep vein thrombosis with low dose aspirin: Pulmonary Embolism Prevention (PEP) trial |journal=Lancet |volume=355 |issue=9212 |pages=1295–302 |year=2000 |month=April |pmid=10776741 |doi= |url=http://linkinghub.elsevier.com/retrieve/pii/S0140673600021103 |accessdate=2012-04-28}}</ref> | |||
*'''Patient enrollment:''' 17,444 (Mean 79 years old, % Female: 79) | |||
*'''Inclusion criteria:''' Patients with a femoral-neck fracture or other fracture of the proximal femur in all participating countries. In New Zealand, patients undergoing elective hip or knee [[arthroplasty]] were also eligible. The fundamental eligibility criterion was the treating physicians’s uncertainty as to the balance of benefits and risks of low-dose aspirin for the particular patient. | |||
*'''Purpose:''' To assess the role of [[aspirin]] in reducing the in-hospital morbidity due to VTE. Previous trials of antiplatelet therapy for the prevention of venous thromboembolism have individually been inconclusive, the aim of this large randomized placebo-controlled trial was to confirm or refute these apparent benefits. | |||
*'''Result:''' Among the patients with [[hip fracture]], allocation to aspirin produced proportional reductions in pulmonary embolism of 43% (95% CI 18-60; p=0.002) and in symptomatic deep-vein thrombosis, 29% (3-48; p=0.03). | |||
==== Trial Assessing the Afficacy of Oral Rivaroxaban for the Treatment of Symptomatic Pulmonary Embolism ==== | |||
'''EINSTEIN PE''' (2012) <ref name="pmid22449293">{{cite journal |author=Büller HR, Prins MH, Lensin AW, Decousus H, Jacobson BF, Minar E, Chlumsky J, Verhamme P, Wells P, Agnelli G, Cohen A, Berkowitz SD, Bounameaux H, Davidson BL, Misselwitz F, Gallus AS, Raskob GE, Schellong S, Segers A |title=Oral rivaroxaban for the treatment of symptomatic pulmonary embolism |journal=N. Engl. J. Med. |volume=366 |issue=14 |pages=1287–97 |year=2012 |month=April |pmid=22449293 |doi=10.1056/NEJMoa1113572 |url=http://www.nejm.org/doi/abs/10.1056/NEJMoa1113572?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed |accessdate=2012-04-28}}</ref> | |||
*'''Patient enrollment:''' 4832 | |||
*'''Inclusion criteria:''' Patients who had an acute symptomatic pulmonary embolism with or without deep-vein thrombosis. | |||
*'''Purpose:''' A fixed-dose regimen of rivaroxaban, an oral factor Xa inhibitor, has been shown to be as effective as standard anticoagulant therapy for the treatment of deep-vein thrombosis, without the need for laboratory monitoring. This approach may also simplify the treatment of a pulmonary embolism. | |||
*'''Result:''' Rivaroxaban was noninferior to standard therapy (noninferiority margin, 2.0; P=0.003) for the primary efficacy outcome, with 50 events in the rivaroxaban group (2.1%) versus 44 events in the standard-therapy group (1.8%) (hazard ratio, 1.12; 95% confidence interval [CI], 0.75 to 1.68). The principal safety outcome occurred in 10.3% of patients in the rivaroxaban group and 11.4% of those in the standard-therapy group (hazard ratio, 0.90; 95% CI, 0.76 to 1.07; P=0.23). Major bleeding was observed in 26 patients (1.1%) in the rivaroxaban group and 52 patients (2.2%) in the standard-therapy group (hazard ratio, 0.49; 95% CI, 0.31 to 0.79; P=0.003). Rates of other adverse events were similar in the two groups. | |||
=== | === Latest/Ongoing Trials === | ||
==== Trial Evaluating the Safety of Withholding Anticoagulation in Subsegmental PE Patients ==== | |||
A Multicenter Prospective Cohort Management Study to Evaluate the Safety of Withholding Anticoagulation in Patients With Subsegmental PE Who Have a Negative Serial Bilateral Lower Extremity Ultrasound (SSPE) [http://clinicaltrials.gov/ct2/show/NCT01455818?term=nct01455818&rank=1] | |||
(ClinicalTrials.gov number, NCT01455818). | (ClinicalTrials.gov number, NCT01455818). | ||
*'''Estimated patient enrollment:''' 300 (Still recruiting) | |||
*'''Inclusion criteria:''' Consecutive out-patients with symptomatic, isolated SSPE (any number), that are newly diagnosed by CTPA, will be eligible to participate in the study. | |||
*'''Purpose:''' The investigators plan to follow 270 patients with small blood clots in their lungs for 90 days. These patients will not be treated with blood thinners but will be followed closely with other non-invasive tests to avoid progression or recurrence of blood clots. | *'''Purpose:''' The investigators plan to follow 270 patients with small blood clots in their lungs for 90 days. These patients will not be treated with blood thinners but will be followed closely with other non-invasive tests to avoid progression or recurrence of blood clots. | ||
*'''Study Type:''' Observational | *'''Study Type:''' Observational | ||
*'''Study Design:''' Observational Model:Cohort, Time Perspective:Prospective. | *'''Study Design:''' Observational Model: Cohort, Time Perspective: Prospective. | ||
==References== | ==References== | ||
{{ | {{Reflist|2}} | ||
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{{WS}} | |||
[[Category:Hematology]] | [[Category:Hematology]] | ||
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[[Category:Cardiology]] | [[Category:Cardiology]] | ||
[[Category:Emergency medicine]] | [[Category:Emergency medicine]] | ||
[[Category:Intensive care medicine]] | |||
Latest revision as of 23:53, 29 July 2020
Pulmonary Embolism Microchapters |
Diagnosis |
---|
Pulmonary Embolism Assessment of Probability of Subsequent VTE and Risk Scores |
Treatment |
Follow-Up |
Special Scenario |
Trials |
Case Studies |
Pulmonary embolism landmark trials On the Web |
Directions to Hospitals Treating Pulmonary embolism landmark trials |
Risk calculators and risk factors for Pulmonary embolism landmark trials |
Editor(s)-In-Chief: The APEX Trial Investigators, C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Cafer Zorkun, M.D., Ph.D. [2]
Overview
There have been various trials and studies since the discovery of PE. These trials and studies have guided our knowledge about the disease and our approach to the diagnosis and treatment of a pulmonary embolism. The major trials and studies causing most impact are mentioned in this chapter.
Landmark Trials
Trials Assessing the Prevention of VTE
1. MEDNOX (Prophylaxis in MEdical Patients with ENoxaparin) (1999). [1]
- Patient enrollment: 1102
- Inclusion criteria: Medical patients > 40 years of age with a projected hospital stay of at least six days, no prolonged immobilization, and one of the following illnesses: class III or IV heart failure, acute respiratory failure not requiring mechanical ventilation, acute infection without shock, acute rheumatic or musculoskeletal disorder, or inflammatory bowel disease. Patients with any but the first two diagnoses also had to have a clinical risk factor for thromboembolism, including age > 75, cancer, previous venous thromboembolism, obesity, varicose veins, hormone therapy, or chronic heart or respiratory failure.
- Purpose:This randomized, double-blind, multicenter study compared two daily doses of subcutaneous enoxaparin with placebo for the prevention of thromboembolism in patients hospitalized for acute medical illnesses.
- Result: The primary outcome could be assessed in 866 patients. The incidence of venous thromboembolism was significantly lower in the group that received 40 mg of enoxaparin (5.5 percent [16 of 291 patients]) than in the group that received a placebo (14.9 percent [43 of 288 patients]) (relative risk, 0.37; 97.6 percent confidence interval, 0.22 to 0.63; P< 0.001). The benefit observed with 40 mg of enoxaparin was maintained at three months. There was no significant difference in the incidence of venous thromboembolism between the group that received 20 mg of enoxaparin (43 of 287 patients [15.0 percent]) and the placebo group. The incidence of adverse effects did not differ significantly between the placebo group and either enoxaparin group. By day 110, 50 patients had died in the placebo group (13.9 percent), 51 had died in the 20-mg group (14.7 percent), and 41 had died in the 40-mg group (11.4 percent); the differences were not significant.
2. PREVENT Randomized, placebo-controlled trial of dalteparin for the prevention of venous thromboembolism in acutely ill medical patients. (2004) [2]
- Patient enrollment: 3706
- Inclusion criteria: Patients were considered for inclusion if they were ≥ 40 years of age with an acute medical condition requiring a projected hospitalization of ≥ 4 days and had ≤ 3 days of prior immobilization. Inclusion criteria were acute congestive heart failure, acute respiratory failure that did not require ventilatory support, infection without septic shock, acute rheumatologic disorders, or inflammatory bowel disease. Except for congestive heart or acute respiratory failure, patients had to have ≥ 1 additional risk factor for venous thromboembolism: age ≥ 75 years, cancer, previous venous thromboembolism, obesity, varicose veins and/or chronic venous insufficiency, hormone replacement therapy, a history of chronic heart failure, chronic respiratory failure, or myeloproliferative syndrome.
- Purpose: To assess the efficacy and safety of dalteparin in the prevention of venous thromboembolism in acutely ill medical patients.
- Result: The incidence of venous thromboembolism was reduced from 4.96% (73 of 1473 patients) in the placebo group to 2.77% (42 of 1518 patients) in the dalteparin group, an absolute risk reduction of 2.19% or a relative risk reduction of 45% (relative risk, 0.55; 95% CI, 0.38 to 0.80; P=0.0015). The observed benefit was maintained at 90 days. The overall incidence of major bleeding was low, but it was higher in the dalteparin group (9 patients; 0.49%) compared with the placebo group (3 patients; 0.16%).
- Conclusion: Dalteparin 5000 IU once daily cut the rate of venous thromboembolism with a low risk of bleeding.
Trials Assessing Diagnosis
1. PIOPED (Prospective Investigation in Pulmonary Embolism Diagnosis) (1989).[3]
(ClinicalTrials.gov number, NCT00000566).
- Patient enrollment: 1493
- Inclusion criteria: Occlusion of a lobar artery or at least two segmental arteries evident at angiography. Risk factors, signs, symptoms or laboratory findings which were unexplained and suggestive of an acute pulmonary embolism
- Purpose : To evaluate the sensitivity and specificity of two major, widely used technologies. These technologies are radionuclear imaging (ventilation-perfusion scanning) and pulmonary angiography, for the diagnosis of pulmonary embolism.
- Result: Almost all patients with a pulmonary embolism had abnormal scans of high, intermediate, or low probability, but so did most without pulmonary embolism (sensitivity, 98%; specificity, 10%). Of 116 patients with high-probability scans and definitive angiograms, 102 (88%) had pulmonary embolism, but only a minority with pulmonary embolism had high-probability scans (sensitivity, 41%; specificity, 97%). Of 322 with intermediate-probability scans and definitive angiograms, 105 (33%) had pulmonary embolism.
2. PIOPED II (Prospective Investigation in Pulmonary Embolism Diagnosis II). (2004) [4][5]
(ClinicalTrials.gov number, NCT00007085).
- Patient enrollment: 824
- Inclusion criteria: 1) Age ≥ 18 years; 2) suspected diagnosis of acute PE; 3) Able to give informed consent; 4) Willing to undergo VQ lung scan, spiral CT, venous compression ultrasound of the lower limbs (U/S), and digital subtraction angiography (DSA).
- Purpose: It was designed to assess the efficacy of the spiral computed tomographic pulmonary angiogram in patients suspected of having acute pulmonary embolism (PE).
- Result: In patients with a suspected pulmonary embolism, multidetector CTA-CTV has a higher diagnostic sensitivity than does CTA alone, with similar specificity. The predictive value of either CTA or CTA-CTV is high with a concordant clinical assessment, but additional testing is necessary when the clinical probability is inconsistent with the imaging results.
- Comparison with PIOPED: In contrast to the original PIOPED study, which used contrast pulmonary angiography as the primary reference test for PE, PIOPED II used a composite reference test for venous thromboembolism that was based on the ventilation/perfusion lung scan, venous compression ultrasound of the lower extremities, digital subtraction pulmonary angiography, and contrast venography in various combinations to establish the PE status of the patient. New criteria for ventilation/perfusion lung scan diagnoses were developed for PIOPED II.
3. ECG score predicts those with the greatest percentage of perfusion defects due to acute pulmonary thromboembolic disease. (2004) [6]
- Patient enrollment: 299
- Inclusion criteria: Consecutive patients investigated for PE at Christchurch Hospital between 1997 and 2002 with high-probability ventilation/perfusion (V/Q) scan findings.
- Purpose: A scoring system based on the ECG might identify such patients.
- Methods: Consecutive patients investigated for PE at Christchurch Hospital between 1997 and 2002 with high-probability ventilation/perfusion (V/Q) scan findings were studied. The ECG obtained closest to and within 48 hours of the scan was scored by two independent observers, and the mean ECG score was calculated. V/Q scan findings were categorized into those with < 30%, 30 to 50%, and > 50% perfusion defect by two independent observers experienced in V/Q interpretation. A consensus score was taken when disagreement occurred.
- Result: The interobserver agreement for ECG score was 0.96 (Cronbach alpha) and V/Q score was 0.55 (kappa). The ECG predicted those with the greatest amount of perfusion defects. The mean ECG score was 2.6 (SD 2.8) in patients with < 30% perfusion defect, 3.2 (SD 2.9) in patients with 30 to 50% perfusion defect, and 5.3 (SD 3.7) in patients with > 50% perfusion defect. The area under the receiver operating characteristic curve for ECG score and those with > 50% perfusion defect was 0.71 (SE 0.04). An ECG score of ≥ 3 predicted those with > 50% perfusion defect with a sensitivity of 70% (95% confidence interval [CI], 59 to 81%), and a specificity of 59% (95% CI, 51 to 67%).
- Conclusion:: An ECG score, simple to derive, predicts those with the greatest percentage of perfusion defect.
4. PIOPED III (Prospective Investigation of Pulmonary Embolism Diagnosis III) (2010).[7]
(ClinicalTrials.gov number, NCT00241826).
- Patient enrollment: 818
- Inclusion criteria: 1) Age ≥ 18 years; 2)Had been hospitalized or in the emergency department with diagnosed or excluded pulmonary embolism.
- Purpose :The purpose of this study is to determine the diagnostic accuracy of gadolinium-enhanced magnetic resonance angiography (Gd-MRA) of the pulmonary arteries in combination with magnetic resonance venography (MRV) of the veins in the thighs in patients with a clinically suspected acute pulmonary embolism (PE).
- Result: Magnetic resonance angiography, averaged across centers, was technically inadequate in 25% of patients (92 of 371). The proportion of technically inadequate images ranged from 11% to 52% at various centers. Including patients with technically inadequate images, magnetic resonance angiography identified 57% (59 of 104) with pulmonary embolism. Technically adequate magnetic resonance angiography had a sensitivity of 78% and a specificity of 99%. Technically adequate magnetic resonance angiography and venography had a sensitivity of 92% and a specificity of 96%, but 52% of patients (194 of 370) had technically inadequate results.
- Conclusion: Magnetic resonance pulmonary angiography should be considered only at centers that routinely perform it well and only for patients for whom standard tests are contraindicated. Magnetic resonance pulmonary angiography and magnetic resonance venography combined have a higher sensitivity than magnetic resonance pulmonary angiography alone in patients with technically adequate images. It is more difficult to obtain technically adequate images with the 2 procedures.
Trials and Studies Assessing Prognosis
Registries
1 MAPPET (Management Strategy and Prognosis of Pulmonary Embolism Registry) (1997).[8]
- Patient enrollment: 1001
- Inclusion criteria: Based on the clinical findings at presentation and the results of electrocardiographic, echocardiographic, nuclear imaging and cardiac catheterization studies.
- Purpose: This study investigated current management strategies as well as the clinical course of acute major pulmonary embolism. In other words, it is a study assessing the efficacy of thrombolysis.
- Result: Echocardiography was the most frequently performed diagnostic procedure (74%). Either a lung scan or pulmonary angiography was performed in 79% of clinically stable patients but much less frequently in those with circulatory collapse at presentation (32%, p < 0.001). Thrombolytic agents were given to 478 patients (48%), often despite the presence of contraindications (193 [40%] of 478). The frequency of initial thrombolysis was significantly higher in clinically unstable than in normotensive patients (57% vs. 22%, p < 0.001). Overall, the in-hospital mortality rate ranged from 8.1% in the group of stable patients to 25% in those presenting with cardiogenic shock and to 65% in patients necessitating cardiopulmonary resuscitation. Major bleeding was reported in 92 patients (9.2%), but cerebral bleeding was uncommon (0.5%). Finally, a recurrent pulmonary embolism occurred in 172 patients (17%).
2. ICOPER (International Cooperative Pulmonary Embolism Registry) (1999).[9]
- Patient enrollment: 2454
- Inclusion criteria: 2110 (86.0%) patients had PE proven by necropsy, high-probability lung scan, pulmonary angiography, or venous ultrasonography plus a high clinical suspicion. ICOPER accepted, without independent review, diagnoses and interpretation of imaging provided by participating centers. A 3-month follow-up was completed in 98.0% of patients.
- Purpose: Aim of identifying factors associated with death.
- Result: The overall crude mortality rate at 3 months was 17.4% (426 of 2454 deaths, including 52 patients lost to follow-up): 179 of 397 (45.1%) deaths were ascribed to PE and 70 of 397 (17.6%) to cancer. No information on the cause of death was available for 29 patients. On multiple-regression modeling, being over 70 years old (hazard ratio 1.6 [95% CI 1.1-2.3]), cancer (2.3 [1.5-3.5]), congestive heart failure (2.4 [1.5-3.7]), chronic obstructive pulmonary disease (1.8 [1.2-2.7]), systolic arterial hypotension (2.9 [1.7-5.0]), tachypnea (2.0 [1.2-3.2]), and right-ventricular hypokinesis on echocardiography, (2.0 [1.3-2.9]) were identified as significant prognostic factors.
Echocardiography
1. Echocardiography Doppler in pulmonary embolism: right ventricular dysfunction as a predictor of mortality rate (1997). [10]
- Patient enrollment: 141
- Inclusion criteria: (1) Patients with clinical suspicion of PE referred for diagnostic investigation at the site. (2) Diagnosis of PE confirmed by perfusion-ventilation scintigraphy (V-Q scan) and/or pulmonary angiography. (3) Transthoracic ED investigation performed on the same day as for the diagnosis of PE.
- Purpose: To test the hypothesis that the degree of RV systolic dysfunction, as assessed by ED at the time of diagnosis of PE, is a predictor of mortality rate during hospitalization as well as within 1 year.
- Methods: RV function was assessed by evaluation of wall motion on a four-point scale. The material was divided into two groups: group A (n = 56) with normal or slightly reduced RV function and group B (n = 70) with moderately or severely reduced RV function.
- Result: The overall mortality rate was 7.9% in the hospital and 15.1% within 1 year. Four deaths occurred in group A and 15 in group B (p = 0.04). All in-hospital deaths (n = 10) occurred in group B (p = 0.002). The variables associated with mortality rate were RV dysfunction and cancer (in-hospital, p = 0.002 and 0.004; 1 year, p = 0.04 and < 0.001, respectively). Nine (7.1%) deaths (all in-hospital) were caused by PE. Five of these patients had advanced-stage cancer. The in-hospital mortality rate in patients without cancer was 4%, all from PE, and all in group B.
- Conclusion: RV dysfunction, when diagnosis of PE is established, is associated with mortality rate. A strategy for risk stratification of patients with PE and ED may be of clinical value.
2. Short-Term Clinical Outcome of Patients With Acute Pulmonary Embolism, Normal Blood Pressure, and Echocardiographic Right Ventricular Dysfunction (1999)[11]
- Patient enrollment: 209
- Inclusion criteria: Objectively confirmed PE .
- Purpose: Assess the prevalence and clinical outcome of normotensive patients with RV dysfunction among a broad spectrum of PE patients.
- Methods: This prospective clinical outcome study included a cohort of 209 consecutive patients (age, 65±15 years) with documented PE. Acute RV dysfunction was diagnosed in the presence of ≥ 1 of the following: RV dilatation (without hypertrophy), paradox septal systolic motion, and Doppler evidence of pulmonary hypertension. Four groups were identified: 28 patients presenting with shock or cardiac arrest (13%), 19 hypotensive patients without shock (9%), 65 normotensive patients with echocardiographic RV dysfunction (31%), and 97 normotensive patients without RV dysfunction (47%).
- Result: Among normotensive patients with RV dysfunction, 6 (10%) developed PE-related shock after admission: 3 of these patients died, and 3 were successfully treated with thrombolytic agents. In comparison, none of the 97 normotensive patients without RV dysfunction developed shock or died as a result of PE.
3. Prognostic role of echocardiography among patients with acute pulmonary embolism and a systolic arterial pressure of 90 mm Hg or higher. (2005) [12]
- Patient enrollment: 1035 patients with pulmonary embolism from the International Cooperative Pulmonary Embolism Registry.
- Inclusion criteria: (1) Presented with systolic systemic arterial pressure of 90 mm Hg or higher. (2) Patients who underwent echocardiography within 24 hours of a diagnosis of a pulmonary embolism, showing presence (n = 405) or absence (n = 630) of RV hypokinesis.
- Purpose: To measure the cumulative survival rate through 30 days in patients with and without RV hypokinesis.
- Result: In patients with RV hypokinesis, the initial systolic systemic pressure was lower (125 ± 22 mm Hg vs 131 ± 22 mm Hg; P<.001), and the initial heart rate was higher (104 ± 21 beats per minute vs 99 ± 22 beats per minute; P<.001) than in patients without RV hypokinesis. Cancer was less often present (14.1% vs 22.5%, P = .001). The 30-day survival rates in patients with and without RV hypokinesis were 83.7% (95% confidence interval [CI], 79.3%-87.0%) and 90.6% (95% CI, 88.0%-92.6%), respectively (log-rank P value <.001). The univariate hazard ratio of RV hypokinesis for predicting 30-day mortality was 2.11 (95% CI, 1.41-3.16; P<.001). Right ventricular hypokinesis remained an independent predictor of 30-day mortality (hazard ratio, 1.94; 95% CI, 1.23-3.06) after adjusting for univariately significant predictors, including cancer, congestive heart failure, chronic lung disease, age older than 70 years, systolic arterial pressure of 100 mm Hg or lower, administration of thrombolytic therapy, and heart rate greater than 100 beats per minutes.
- Conclusion: Among patients with pulmonary embolism, who present with a systolic arterial pressure greater than or equal to 90 mm Hg, echocardiographic RV hypokinesis is an independent predictor of early death.
4. Prognostic value of echocardiographic right/left ventricular end-diastolic diameter ratio in patients with acute pulmonary embolism. (2008) [13]
- Patient enrollment: 950 (Registry data on 1,416 from Trousseau hospital (Tours, France) pulmonary embolism registry data for January 1, 1992, through June 30, 2005).
- Inclusion criteria: (1) Patients presenting with pulmonary embolism confirmed by high-probability ventilation-perfusion lung scan as per the criteria defined by the Prospective Investigation of Pulmonary Embolism Diagnosis study, or accompanied by venous Doppler ultrasound confirming vein thrombosis for the other cases; pulmonary angiography or chest CT. (2) Echocardiographic assessment within 24 hours of hospital admission. (3) Determination of RV/LV ratio.
- Purpose: To determine the prognostic value of a single quantitative echocardiographic criterion, the right/left ventricular end-diastolic diameter (RV/LV) ratio.
- Result: The hospital mortality rate for the series was 3.3%. Sensitivity and specificity of RV/LV ratio ≥ 0.9 for predicting hospital mortality were 72% and 58%, respectively. Multivariate analysis showed the independent predictive factors for hospital mortality to be the following: systolic BP < 90 mm Hg (odds ratio [OR], 10.73; p < 0.0001), history of left heart failure (OR, 8.99; p < 0.0001), and RV/LV ratio ≥ 0.9 (OR, 2.66; p = 0.01).
- Conclusion: An echocardiographic RV/LV ratio ≥ 0.9 was shown to be an independent predictive factor for hospital mortality. This criterion may be of value in selecting cases of submassive pulmonary embolism with a poor prognosis that are liable to benefit from thrombolytic treatment.
5. Prognostic importance of quantitative echocardiographic evaluation in patients suspected of first non-massive pulmonary embolism. (2009) [14]
- Patient enrollment: 283
- Inclusion criteria: Patients referred for ventilation/perfusion scintigraphy (V/Q scan) on suspicion of first non-massive PE.
- Purpose: To determine the prognostic implication of routine echocardiography in patients suspected of PE.
- Result: Patients with PE and normal V/Q scans had similar age-adjusted 1 year mortality [10 and 12%, NS (not significant)], although patients with indeterminate scans carried a poorer prognosis (16% survival, P=0.0004). Among all patients, left ventricular (LV) ejection fraction, as well as shortening of the pulmonary artery (PA) acceleration time, (a measure of RV after-load) was associated with increased mortality [hazard ratio (HR)=0.84 per 10 ms increase, P<0.0001]. In patients with confirmed PE, the PA acceleration time is predictive of event-free survival (all-cause mortality and heart failure hospitalizations) adjusted for LV ejection fraction, age, and sex (HR=0.78 per 10 ms increase, P=0.04). Measures of regional myocardial function were not related to outcome in this study, regardless of the presence of PE.
- Conclusion: Acceleration time and LV systolic function are independent predictors of mortality in patients suspected of PE. They are also independent predictors of event-free survival in patients with a confirmed PE.
Computed Tomography
1. Helical CT pulmonary angiography predictors of in-hospital morbidity and mortality in patients with acute pulmonary embolism. (2003) [15]
- Patient enrollment: 173
- Inclusion criteria: CT scans positive for PE.
- Purpose: To determine if CT variables predict in-hospital morbidity and mortality in patients with pulmonary embolism (PE).
- Methods: CT scans and charts of 173 patients with CT scans positive for PE were reviewed. CT scans were reviewed for leftward ventricular septal bowing, increased right ventricle (RV) to left ventricle (LV) diameter ratio, clot burden, increased pulmonary artery to aorta diameter ratio, and oligemia. Charts were reviewed for severe morbidity and mortality outcomes: death from pulmonary emboli or any cause, and cardiac arrest. Charts were also reviewed for milder morbidity outcomes: intubation, vasopressor use, or admission to an intensive care unit (ICU) and for multiple comorbidities.
- Result: No CT predictor was significantly associated with severe morbidity or mortality outcomes. Ventricular septal bowing and increased RV/LV diameter ratio were both associated with subsequent admission to an ICU (P = 0.004 and P = 0.025, respectively). Oligemia (either lung) was associated with subsequent intubation; right lung oligemia was associated with the subsequent use of vasopressors. After controlling for history of congestive heart failure, ischemic heart disease, and pulmonary disease, both septal bowing and an increased RV/LV diameter ratio remained associated with admission to an ICU.
- Conclusion: No CT variables predicted severe in-hospital morbidity and mortality (death from pulmonary embolism, death from any cause, or cardiac arrest) in patients with PE. However, ventricular septal bowing and increased RV/LV diameter ratio were both strongly predictive of less severe morbidity, namely, subsequent ICU admission. Oligemia was associated with subsequent intubation and vasopressor use.
2. Right ventricular enlargement on chest computed tomography: prognostic role in acute pulmonary embolism. (2004) [16].
- Patient enrollment: 63
- Inclusion criteria: Patients with CT-confirmed PE who underwent echocardiography within the ensuing 24 hours.
- Purpose: To investigate the prognostic role of right ventricular enlargement on multidetector-row chest CT in acute pulmonary embolism (PE).
- Methods: Off-line CT measurements of right and left ventricular dimensions (RVD, LVD) with axial and 2-dimensional reconstructed 4-chamber (4-CH) views were performed.
- Result: The proportion of patients with RVD/LVD > 0.9 on the axial view was similar in patients with (70.8%) and without adverse events (71.8%; P=0.577). In contrast, RVD/LVD > 0.9 on the 4-CH view was more common in patients with (80.3%) than without (51.3%; P=0.015) adverse events. The area under the curve of RVD/LVD from the axial and 4-CH views for predicting adverse events was 0.667 and 0.753, respectively. Sensitivity and specificity of RVD/LVD > 0.9 for predicting adverse events were 37.5% and 92.3% on the axial view and 83.3% and 48.7% on the reconstructed 4-CH view, respectively. RVD/LVD > 0.9 on the 4-CH view was an independent predictor for adverse events (OR, 4.02; 95% CI, 1.06 to 15.19; P=0.041) when adjusted for age, obesity, cancer, and recent surgery.
- Conclusion: Right ventricular enlargement on the reconstructed CT 4-CH views predicts adverse clinical events in patients with acute PE. Ventricular CT measurements obtained from 4-CH views are superior to those from axial views for identifying high-risk patients.
3. Right ventricular enlargement on chest computed tomography: a predictor of early death in acute pulmonary embolism. (2004) [17]
- Patient enrollment: 431 (mean age, 59+/-16 years; 55% women).
- Inclusion criteria: Acute PE confirmed by multidetector-row chest CT.
- Purpose: To investigate the prognostic role of right ventricular enlargement on multidetector-row chest CT in acute pulmonary embolism (PE).
- Methods: With the use of multiplanar reformats of axial CT data, CT 4-chamber (4-CH) views were reconstructed. Right and left ventricular dimensions (RV(D), LV(D)) were measured.
- Result: RV enlargement, defined as RV(D)/LV(D) > 0.9, was present in 276 (64.0%; 95% CI, 59.5% to 68.6%) patients. The thirty-day mortality rate was 15.6% (95% CI, 11.3% to 19.9%) in patients with and 7.7% (95% CI, 3.5% to 12.0%) without RV enlargement (log rank, P=0.018). The hazard ratio of RV(D)/LV(D) > 0.9 for predicting 30-day death was 3.36 (95% CI, 1.13 to 9.97; P=0.029). On multivariable analysis, RV enlargement predicted 30-day death (hazard ratio, 5.17; 95% CI, 1.63 to 16.35; P=0.005) after adjusting for pneumonia (hazard ratio, 2.95; 95% CI, 1.19 to 3.83; P=0.002), cancer (hazard ratio, 2.13; 95% CI, 1.19 to 3.83; P=0.011), chronic lung disease (hazard ratio, 2.00; 95% CI, 1.04 to 3.86; P=0.039), and age (hazard ratio, 1.03; 95% CI, 1.01 to 1.05; P=0.005).
- Conclusion: In patients with acute PE, RV enlargement on reconstructed CT 4-CH view helps predict early death.
4. Pulmonary embolism: prognostic CT findings. (2007) [18]
- Patient enrollment: 1193
- Inclusion criteria: Patients with CT scans positive for PE from January 1, 1997, to December 31, 2002, who had given authorization for retrospective research.
- Purpose: To retrospectively determine whether three computed tomographic (CT) findings-ventricular septal bowing (VSB), the ratio between the diameters of the right and left ventricles, and embolic burden-are associated with short-term death, defined as in-hospital death or death within 30 days of CT, whichever was longer, due to an acute pulmonary embolism (PE).
- Methods: Scans were independently reviewed by two observers. CT findings were compared with risk of death by using univariate analysis (chi(2) statistic) and multivariate logistic regression. Interobserver variability (kappa statistic or intraclass correlation coefficient), sensitivity, and specificity of CT findings for predicting death were calculated. A third observer reviewed discrepant cases post hoc.
- Result: Fifty-four percent of patients were women and 46% were men (mean age, 63 years +/- 16). For observer 1, VSB was associated with death in univariate (odds ratio [OR], 1.98; P = .04) and multivariate modeling (OR, 1.97; P = .05). Interobserver variability was only fair (kappa = 0.54) for VSB, and observer 2 found no association with death (OR, 1.52; P = .22). For both observers, VSB had low sensitivity (21% and 18%) and high specificity (88% and 87%) for predicting death. Neither RV/LV diameter ratio nor embolic burden were associated with an increased risk of death. For observer 3, VSB was associated with death in univariate (OR, 2.10; P = .05) and multivariate analyses (OR, 2.18; P = .05).
- Conclusion: CT-depicted VSB is predictive of death due to PE, but with low sensitivity and high interobserver variability. RV/LV diameter ratio and embolic burden are not associated with short-term death due to PE.
Prognostic Markers
1. Derivation and validation of a prognostic model for pulmonary embolism. (2005) [19]
- Patient enrollment: 10,354 discharged patients (67%) for the derivation and 5,177 (33%) for the internal validation sample. 221 patients for external validation.
- Inclusion criteria: Discharged patients with PE for the internal validation sample. Inpatients prospectively diagnosed with PE, using spiral computed tomography for external validation.
- Purpose: To develop a clinical prediction rule that accurately classifies patients with pulmonary embolism into categories of increasing risk of mortality and other adverse medical outcomes. Compared mortality and nonfatal adverse medical outcomes across the derivation and two validation samples.
- Result: Prediction rule is based on 11 simple patient characteristics that were independently associated with mortality and stratifies patients with pulmonary embolism into five severity classes, with 30-day mortality rates of 0-1.6% in class I, 1.7-3.5% in class II, 3.2-7.1% in class III, 4.0-11.4% in class IV, and 10.0-24.5% in class V across the derivation and validation samples. Inpatient death and nonfatal complications were < or = 1.1% among patients in class I and < or = 1.9% among patients in class II.
Trials Assessing Treatment
Trials Assessing the Role of Anticoagulant in Treatment
Anticoagulant Drugs in the Treatment of Pulmonary Embolism: A Controlled Trial (1960). [20]
- Patient enrollment: 73
- Inclusion criteria: Diagnosis of PE with no contraindications to anticoagulants.
- Purpose: Assessing the role of heparin in treatment.
- Result: Study concluded that when a patient has had a pulmonary embolism, heparin and nicoumalone reduce the risk of death from that embolism. The likelihood of recurrent embolism is also diminished.
Trials Assessing the Efficacy of Urokinase Compared to Heparin Alone
UPET (Urokinase in Pulmonary Embolism Trial) (1970). [21] It was the first RCT to assess the role of thrombolytics in PE
- Patient enrollment: 160 (78 received anticoagulants alone, and 82 received urokinase followed by anticoagulants).
- Inclusion criteria: Angiographically‐proven pulmonary embolism.
- Purpose: To determine whether abnormalities, produced by the presence of obstructing emboli in the pulmonary circulation, and measured by lung scanning, pulmonary arteriography, and hemodynamic factors, are returned toward normal more rapidly with a urokinase regimen as compared to anticoagulant therapy alone.
- Results : The degree of improvement in patients receiving urokinase was significantly greater, however, the serial perfusion scan done beyond 24 hours showed that the difference progressively decreased, such that no difference was found at 5 or 14 days or at 3, 6, or 12 months.
Trial Comparing Streptokinase with Urokinase
USPET (Urokinase-streptokinase embolism trial) (1974) [22]
- Patient enrollment: 167 thrombolytic treatment in pulmonary embolism.
- Inclusion criteria: Angiographically‐proven pulmonary embolism.
- Purpose: To evaluate thrombolytic agents in the treatment of pulmonary embolism.
- Methods: One hundred sixty-seven patients were randomized for treatment with 12 hours of urokinase, 24 hours of urokinase, or 24 hours of streptokinase in this second phase of the study. Resolution of thromboemboli was determined by pulmonary angiograms, lung scans, and hemodynamics.
- Results: The clot resolution with 24 hours of urokinase was equal to that with 12 hours of urokinase therapy. Twenty-four hours of urokinase therapy resulted in greater improvement than streptokinase therapy. This was seen in scans, but not in angiograms. In a massive embolism, this difference was statistically significant. Hemodynamic differences varied. There was no significant difference in mortality. Drug-related morbidity was minimal. All three regimens are more effective in accelerating the resolution of pulmonary thromboemboli than heparin sodium alone was in the phase 1 trial.
Trial Comparing Streptokinase with Heparin
Comparison of streptokinase and heparin in treatment of isolated acute massive pulmonary embolism. (1971) [23]
- Patient enrollment: 23
- Inclusion criteria: Angiographically‐proven pulmonary embolism.
- Purpose: To determine the rate of resolution in a selected series of patients after 72 hours' treatment with either heparin or streptokinase.
- Methods: Massive pulmonary embolism was confirmed by pulmonary arteriography in 23 patients. All were seen between 2 and 48 hours after the onset of embolism and none had pre-existing cardiorespiratory disease. Fifteen were treated with streptokinase and eight with heparin.
- Results : Only two patients treated with streptokinase showed a less than 20% improvement in the angiographic index of severity. No heparin-treated patient improved by as much as 20%.
Trial Comparing Recombinant Tissue Plasminogen Activator with Urokinase
Randomised controlled trial of recombinant tissue plasminogen activator versus urokinase in the treatment of acute pulmonary embolism. (1988) [24]
- Patient enrollment: 45
- Inclusion criteria: Angiographically‐proven pulmonary embolism.
- Purpose: To determine the effect of intravenous recombinant human tissue-type plasminogen activator (rt-PA) was compared with that of urokinase.
- Methods: The two principal end-points were clot lysis at 2 hours, as assessed by angiography, and pulmonary reperfusion at 24 hours, as assessed by perfusion lung scanning. All patients received the full dose of rt-PA but urokinase infusions were terminated prematurely (on average after 18 h) in 9 patients because of allergies in 1 and uncontrollable bleeding in 8.
- Results: By 2 hours, 82% of rt-PA-treated patients showed clot lysis, compared with 48% of urokinase-treated patients (p = 0.008; 95% CI for the difference = 10-58%). Improvement in lung scan reperfusion at 24 hours was identical in the two treatment groups. The reduction in fibrinogen did not differ significantly between the rt-PA and urokinase groups (45% vs 39% at 2 h and 34% vs 40% at 24 h).
- Conclusion: The results indicate that in the dose regimens employed, rt-PA acts more rapidly and is safer than urokinase in the treatment of acute PE.
Trial Comparing Low-Molecular-Weight Heparin With Standard Heparin
Treatment of acute venous thromboembolism with low molecular weight heparin (Fragmin) (1989) [25]
- Patient enrollment: 194.
- Inclusion criteria: All patients with clinical symptoms of deep venous thrombosis of the leg, axillary vein thrombosis, or pulmonary embolism were eligible for the study.
- Purpose: To determine the safety and efficacy of low molecular weight heparin (Fragmin) compared with standard heparin as the initial treatment of acute venous thromboembolism.
- Methods: Ninety-eight patients received continuous intravenous heparin, and 96 patients received Fragmin for 5-10 days. Doses were adjusted to maintain anti-Xa levels between 0.3 and 0.6 unit/ml for patients with a high risk for a bleeding complication and between 0.4 and 0.9 unit/ml for patients with a low risk for bleeding. Treatment was stopped when a therapeutic level of anticoagulation (INR > 3.5) was reached with coumarins.
- Results: Thirteen patients in the heparin group and 10 patients in the Fragmin group had a major bleeding complication. The incidence of major and minor bleeding complications combined decreased from 48.9% to 38.5% (95% confidence interval for the difference, -3.5% to +24.2%), corresponding with a relative bleeding risk reduction of 21.2%. There were no significant differences in efficacy as defined by new high-probability defects on repeat ventilation-perfusion scintigraphy of the lung in 80 patients: six of 46 patients in the heparin group and 3 of 34 patients in the Fragmin group had new defects (95% confidence interval for the difference, -9.4% to +17.8%).
- Conclusion: Low molecular weight heparin (Fragmin) given in adjusted, continuous, and intravenous doses is safe and effective as initial treatment of acute venous thromboembolism compared with heparin. There is a trend in risk reduction for bleeding in favor of low molecular weight heparin, a trend, however, that is smaller than expected compared with animal studies.
Trial Comparing Low-molecular-Weight Heparin With Unfractionated Heparin
THESEE (A comparison of low-molecular-weight heparin with unfractionated heparin for acute pulmonary embolism). (1997) [26]
- Patient enrollment: 612 patients (Mean Patient Age: 67 years / % Female: 55 )
- Inclusion criteria: Individuals over the age of 18 who presented with acute pulmonary embolism documented by pulmonary angiography, high probability ventilation-perfusion imaging, or by intermediate probability ventilation-perfusion imaging and a deep venous thrombosis diagnosed by venography or ultrasound.
- Purpose: The goal of this study was to assess the safety and efficacy of anticoagulation with tinzaparin, a low-molecular-weight heparin (LMWH), compared to unfractionated heparin among patients with acute symptomatic pulmonary embolism.
- Result: Initial subcutaneous therapy with the low-molecular-weight heparin tinzaparin appeared to be as effective and safe as intravenous unfractionated heparin in patients with acute pulmonary embolism.
Trial Comparing Reteplase versus Alteplase
Hemodynamic effects of double bolus reteplase versus alteplase infusion in massive pulmonary embolism. (1999) [27]
- Patient enrollment: 36
- Inclusion criteria: Individuals aged between 18 and 75 years, having distinct clinical symptoms of massive pulmonary embolism in the preceding 5 days, and increased mean pulmonary pressure above 25 mm Hg. They also presented with an obliteration of at least one branch or several lobe arteries detected by pulmonary angiography.
- Purpose: The goal of this study was to measure the efficacy and safety of reteplase with the approved regimen of alteplase in massive pulmonary embolism.
- Method: Thirty-six patients were enrolled and randomly assigned: 23 received reteplase and 13 received alteplase along with intravenous heparin. Reteplase was administered as 2 intravenous bolus injections of 10 U 30 minutes apart, and alteplase was administered as an intravenous infusion of a total dose of 100 mg over a 2-hour period, including an initial 10-mg bolus. Diagnosis of a pulmonary embolism was confirmed by selective pulmonary angiography. Hemodynamic monitoring was conducted during the first 24 hours after administration. The primary end point was changed in total pulmonary resistance. Secondary variables were pulmonary pressure, cardiac index, clinical parameters, and adverse events
- Result: The primary parameter of total pulmonary resistance showed a significant decrease after just 0.5 hours in the reteplase group and after 2 hours in the alteplase group, with a further decrease persisting for up to 24 hours in both treatment groups. A similar pattern was seen in other directly measured hemodynamic parameters, especially mean pulmonary artery pressure and cardiac index; there was no significant difference between reteplase and alteplase. There was also no apparent difference between the treatment groups with respect to safety, and no stroke or intracranial hemorrhage occurred. The rate of bleedings and the incidence of nonhemorrhagic adverse events were as expected for patients with a pulmonary embolism treated with a thrombolytic agent.
- Conclusions: Reteplase is suitable for the treatment of a massive pulmonary embolism with a standard double bolus 10 + 10 U. Efficacy of reteplase appeared to be at least as good at decreasing pulmonary vascular resistance as that of the approved alteplase regimen of 100 mg infusion over a 2-hour period.
Trial Comparing Low-Molecular-Weight Heparin With Alteplase for Acute Submassive PE
Heparin plus alteplase compared with heparin alone in patients with submassive pulmonary embolism. (2002) [28]
- Patient enrollment: 256 patients enrolled, 118 were randomly assigned to receive heparin plus alteplase and 138 to receive heparin plus placebo.
- Inclusion criteria: To be included in the trial, patients with acute pulmonary embolism had to fulfill at least one of the following criteria, which were defined a priority:
- Echocardiographically detected right ventricular dysfunction (defined as right ventricular enlargement combined with loss of inspiratory collapse of the inferior vena cava, without left ventricular or mitral-valve disease);
- Echocardiographically detected pulmonary-artery hypertension (defined as a tricuspid regurgitant jet velocity greater than 2.8 m per second), followed by confirmation of pulmonary embolism (by ventilation–perfusion lung scanning, spiral computed tomography [CT], or pulmonary angiography);
- A diagnosis of precapillary pulmonary hypertension based on catheterization of the right side of the heart, defined as a mean pulmonary-artery pressure above 20 mm Hg and a pulmonary-capillary wedge pressure below 18 mm Hg, followed by confirmation of pulmonary embolism;
- New electrocardiographic signs of right ventricular strain (defined as complete or incomplete right bundle-branch block, S waves in lead I combined with Q waves in lead III, or inverted T waves in precordial leads V1, V2, and V3), followed by confirmation of pulmonary embolism.
- Purpose: The goal of this study was to compare the effects of treatment with heparin plus alteplase with the effects of heparin plus placebo on the outcome of patients with acute submassive pulmonary embolism.
- Result: Of 256 patients enrolled, 118 were randomly assigned to receive heparin plus alteplase and 138 to receive heparin plus placebo. The incidence of the primary end point was significantly higher in the heparin-plus-placebo group than in the heparin-plus-alteplase group (P=0.006), and the probability of 30-day event-free survival (according to Kaplan-Meier analysis) was higher in the heparin-plus-alteplase group (P=0.005). This difference was due to the higher incidence of treatment escalation in the heparin-plus-placebo group (24.6 percent vs. 10.2 percent, P=0.004), since mortality was low in both groups (3.4 percent in the heparin-plus-alteplase group and 2.2 percent in the heparin-plus-placebo group, P=0.71). Treatment with heparin plus placebo was associated with almost three times the risk of death or treatment escalation that was associated with heparin plus alteplase (P=0.006). No fatal bleeding or cerebral bleeding occurred in patients receiving heparin plus alteplase.
- Conclusion: When given in conjunction with heparin, alteplase can improve the clinical course of stable patients who have acute submassive pulmonary embolism and can prevent clinical deterioration requiring the escalation of treatment during the hospital stay.
Trials Assessing the Efficacy of LMWH in Reducing Mortality in Acutely Ill Patients
1. Subcutaneous enoxaparin once or twice daily compared with intravenous unfractionated heparin for treatment of venous thromboembolic disease. (2001) [29]
- Patient enrollment: 900 (74 hospitals in 16 countries.)
- Inclusion criteria: Symptomatic lower-extremity deep venous thrombosis, and with confirmed pulmonary embolism.
- Purpose: To determine whether subcutaneous enoxaparin administered once or twice daily is as effective as continuously infused unfractionated heparin in acute symptomatic venous thromboembolic disease.
- Result: Equivalent efficacy was seen in the heparin group and both enoxaparin groups. Symptomatic venous thromboembolism recurred in 12 of 290 patients receiving unfractionated heparin (4.1%), 13 of 298 patients receiving once-daily enoxaparin (4.4%), and 9 of 312 patients receiving twice-daily enoxaparin (2.9%). Compared with unfractionated heparin, the treatment difference was 0.2% (95% CI, -3.04% to 3.49%) for once-daily enoxaparin and -1.2% (CI, -4.2% to 1.7%) for twice-daily enoxaparin. Incidence of major hemorrhage did not differ among the three treatment groups. Major hemorrhage occurred in 6 of 290 patients (2.1%) in the unfractionated heparin group, 5 of 298 patients (1.7%) in the once-daily enoxaparin group, and 4 of 312 patients (1.3%) in the twice-daily enoxaparin group.
- Conclusion: Subcutaneous enoxaparin, once or twice daily, is as effective and safe as dose-adjusted, continuously infused unfractionated heparin in the prevention of recurrent symptomatic venous thromboembolic disease.
2. LIFENOX (Study to Evaluate the Mortality Reduction of Enoxaparin in Hospitalized Acutely Ill Medical Receiving Enoxaparin) (2011).[30]
(ClinicalTrials.gov number, NCT00622648).
- Patient enrollment: 8307
- Inclusion criteria: Age ≥ 40 years and hospitalization for acute decompensated heart failure, severe systemic infection with at least one risk factor for venous thromboembolism, or active cancer.
- Purpose: To asses the effect of subcutaneous enoxaparin (40 mg daily) as compared with placebo--both administered for 10±4 days in patients who were wearing elastic stockings with graduated compression--on the rate of death from any cause among hospitalized, acutely ill medical patients at participating sites in China, India, Korea, Malaysia, Mexico, the Philippines, and Tunisia.
- Result: Enoxaparin plus elastic stockings with graduated compression, failed to show any reduction in the rate of death from any cause among hospitalized, acutely ill medical patients, when compared to elastic stockings with graduated compression alone.
Trial Assessing the Role of Aspirin in Reducing the In-Hospital Morbidity due to VTE in High-Risk Patients Undergoing Major Surgery
(PEP) Pulmonary Embolism Prevention Trial (2000) [31]
- Patient enrollment: 17,444 (Mean 79 years old, % Female: 79)
- Inclusion criteria: Patients with a femoral-neck fracture or other fracture of the proximal femur in all participating countries. In New Zealand, patients undergoing elective hip or knee arthroplasty were also eligible. The fundamental eligibility criterion was the treating physicians’s uncertainty as to the balance of benefits and risks of low-dose aspirin for the particular patient.
- Purpose: To assess the role of aspirin in reducing the in-hospital morbidity due to VTE. Previous trials of antiplatelet therapy for the prevention of venous thromboembolism have individually been inconclusive, the aim of this large randomized placebo-controlled trial was to confirm or refute these apparent benefits.
- Result: Among the patients with hip fracture, allocation to aspirin produced proportional reductions in pulmonary embolism of 43% (95% CI 18-60; p=0.002) and in symptomatic deep-vein thrombosis, 29% (3-48; p=0.03).
Trial Assessing the Afficacy of Oral Rivaroxaban for the Treatment of Symptomatic Pulmonary Embolism
EINSTEIN PE (2012) [32]
- Patient enrollment: 4832
- Inclusion criteria: Patients who had an acute symptomatic pulmonary embolism with or without deep-vein thrombosis.
- Purpose: A fixed-dose regimen of rivaroxaban, an oral factor Xa inhibitor, has been shown to be as effective as standard anticoagulant therapy for the treatment of deep-vein thrombosis, without the need for laboratory monitoring. This approach may also simplify the treatment of a pulmonary embolism.
- Result: Rivaroxaban was noninferior to standard therapy (noninferiority margin, 2.0; P=0.003) for the primary efficacy outcome, with 50 events in the rivaroxaban group (2.1%) versus 44 events in the standard-therapy group (1.8%) (hazard ratio, 1.12; 95% confidence interval [CI], 0.75 to 1.68). The principal safety outcome occurred in 10.3% of patients in the rivaroxaban group and 11.4% of those in the standard-therapy group (hazard ratio, 0.90; 95% CI, 0.76 to 1.07; P=0.23). Major bleeding was observed in 26 patients (1.1%) in the rivaroxaban group and 52 patients (2.2%) in the standard-therapy group (hazard ratio, 0.49; 95% CI, 0.31 to 0.79; P=0.003). Rates of other adverse events were similar in the two groups.
Latest/Ongoing Trials
Trial Evaluating the Safety of Withholding Anticoagulation in Subsegmental PE Patients
A Multicenter Prospective Cohort Management Study to Evaluate the Safety of Withholding Anticoagulation in Patients With Subsegmental PE Who Have a Negative Serial Bilateral Lower Extremity Ultrasound (SSPE) [3]
(ClinicalTrials.gov number, NCT01455818).
- Estimated patient enrollment: 300 (Still recruiting)
- Inclusion criteria: Consecutive out-patients with symptomatic, isolated SSPE (any number), that are newly diagnosed by CTPA, will be eligible to participate in the study.
- Purpose: The investigators plan to follow 270 patients with small blood clots in their lungs for 90 days. These patients will not be treated with blood thinners but will be followed closely with other non-invasive tests to avoid progression or recurrence of blood clots.
- Study Type: Observational
- Study Design: Observational Model: Cohort, Time Perspective: Prospective.
References
- ↑ Samama MM, Cohen AT, Darmon JY, Desjardins L, Eldor A, Janbon C, Leizorovicz A, Nguyen H, Olsson CG, Turpie AG, Weisslinger N (1999). "A comparison of enoxaparin with placebo for the prevention of venous thromboembolism in acutely ill medical patients. Prophylaxis in Medical Patients with Enoxaparin Study Group". N. Engl. J. Med. 341 (11): 793–800. doi:10.1056/NEJM199909093411103. PMID 10477777. Retrieved 2012-05-02. Unknown parameter
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ignored (help) - ↑ Leizorovicz A, Cohen AT, Turpie AG, Olsson CG, Vaitkus PT, Goldhaber SZ (2004). "Randomized, placebo-controlled trial of dalteparin for the prevention of venous thromboembolism in acutely ill medical patients". Circulation. 110 (7): 874–9. doi:10.1161/01.CIR.0000138928.83266.24. PMID 15289368. Retrieved 2012-05-02. Unknown parameter
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ignored (help) - ↑ "Value of the ventilation/perfusion scan in acute pulmonary embolism. Results of the prospective investigation of pulmonary embolism diagnosis (PIOPED). The PIOPED Investigators". JAMA. 263 (20): 2753–9. 1990. PMID 2332918.
|access-date=
requires|url=
(help) - ↑ Gottschalk A, Stein PD, Goodman LR, Sostman HD (2002). "Overview of Prospective Investigation of Pulmonary Embolism Diagnosis II". Semin Nucl Med. 32 (3): 173–82. doi:10.1053/snuc.2002.124177. PMID 12105798. Retrieved 2012-01-10. Unknown parameter
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ignored (help) - ↑ Stein PD, Fowler SE, Goodman LR, Gottschalk A, Hales CA, Hull RD, Leeper KV, Popovich J, Quinn DA, Sos TA, Sostman HD, Tapson VF, Wakefield TW, Weg JG, Woodard PK (2006). "Multidetector computed tomography for acute pulmonary embolism". N. Engl. J. Med. 354 (22): 2317–27. doi:10.1056/NEJMoa052367. PMID 16738268. Retrieved 2012-04-28. Unknown parameter
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ignored (help) - ↑ Iles S, Le Heron CJ, Davies G, Turner JG, Beckert LE (2004). "ECG score predicts those with the greatest percentage of perfusion defects due to acute pulmonary thromboembolic disease". Chest. 125 (5): 1651–6. PMID 15136372. Retrieved 2012-05-05. Unknown parameter
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ignored (help) - ↑ Stein PD, Chenevert TL, Fowler SE, Goodman LR, Gottschalk A, Hales CA, Hull RD, Jablonski KA, Leeper KV, Naidich DP, Sak DJ, Sostman HD, Tapson VF, Weg JG, Woodard PK (2010). "Gadolinium-enhanced magnetic resonance angiography for pulmonary embolism: a multicenter prospective study (PIOPED III)". Ann. Intern. Med. 152 (7): 434–43, W142–3. doi:10.1059/0003-4819-152-7-201004060-00008. PMC 3138428. PMID 20368649. Unknown parameter
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ignored (help);|access-date=
requires|url=
(help) - ↑ Kasper W, Konstantinides S, Geibel A, Olschewski M, Heinrich F, Grosser KD; et al. (1997). "Management strategies and determinants of outcome in acute major pulmonary embolism: results of a multicenter registry". J Am Coll Cardiol. 30 (5): 1165–71. PMID 9350909.
- ↑ Goldhaber SZ, Visani L, De Rosa M (1999). "Acute pulmonary embolism: clinical outcomes in the International Cooperative Pulmonary Embolism Registry (ICOPER)". Lancet. 353 (9162): 1386–9. PMID 10227218. Retrieved 2012-01-13. Unknown parameter
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ignored (help) - ↑ Ribeiro A, Lindmarker P, Juhlin-Dannfelt A, Johnsson H, Jorfeldt L (1997). "Echocardiography Doppler in pulmonary embolism: right ventricular dysfunction as a predictor of mortality rate". Am. Heart J. 134 (3): 479–87. PMID 9327706. Retrieved 2012-05-04. Unknown parameter
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ignored (help) - ↑ Grifoni S, Olivotto I, Cecchini P, Pieralli F, Camaiti A, Santoro G, Conti A, Agnelli G, Berni G (2000). "Short-term clinical outcome of patients with acute pulmonary embolism, normal blood pressure, and echocardiographic right ventricular dysfunction". Circulation. 101 (24): 2817–22. PMID 10859287. Retrieved 2012-05-04. Unknown parameter
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ignored (help) - ↑ Kucher N, Rossi E, De Rosa M, Goldhaber SZ (2005). "Prognostic role of echocardiography among patients with acute pulmonary embolism and a systolic arterial pressure of 90 mm Hg or higher". Arch. Intern. Med. 165 (15): 1777–81. doi:10.1001/archinte.165.15.1777. PMID 16087827. Retrieved 2012-05-04.
- ↑ Frémont B, Pacouret G, Jacobi D, Puglisi R, Charbonnier B, de Labriolle A (2008). "Prognostic value of echocardiographic right/left ventricular end-diastolic diameter ratio in patients with acute pulmonary embolism: results from a monocenter registry of 1,416 patients". Chest. 133 (2): 358–62. doi:10.1378/chest.07-1231. PMID 17951624. Retrieved 2012-05-04. Unknown parameter
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ignored (help) - ↑ Kjaergaard J, Schaadt BK, Lund JO, Hassager C (2009). "Prognostic importance of quantitative echocardiographic evaluation in patients suspected of first non-massive pulmonary embolism". Eur J Echocardiogr. 10 (1): 89–95. doi:10.1093/ejechocard/jen169. PMID 18579484. Retrieved 2012-05-05. Unknown parameter
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ignored (help) - ↑ Araoz PA, Gotway MB, Trowbridge RL, Bailey RA, Auerbach AD, Reddy GP, Dawn SK, Webb WR, Higgins CB (2003). "Helical CT pulmonary angiography predictors of in-hospital morbidity and mortality in patients with acute pulmonary embolism". J Thorac Imaging. 18 (4): 207–16. PMID 14561905. Retrieved 2012-05-05. Unknown parameter
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ignored (help) - ↑ Quiroz R, Kucher N, Schoepf UJ, Kipfmueller F, Solomon SD, Costello P, Goldhaber SZ (2004). "Right ventricular enlargement on chest computed tomography: prognostic role in acute pulmonary embolism". Circulation. 109 (20): 2401–4. doi:10.1161/01.CIR.0000129302.90476.BC. PMID 15148278. Retrieved 2012-05-05. Unknown parameter
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ignored (help) - ↑ Schoepf UJ, Kucher N, Kipfmueller F, Quiroz R, Costello P, Goldhaber SZ (2004). "Right ventricular enlargement on chest computed tomography: a predictor of early death in acute pulmonary embolism". Circulation. 110 (20): 3276–80. doi:10.1161/01.CIR.0000147612.59751.4C. PMID 15533868. Retrieved 2012-05-05. Unknown parameter
|month=
ignored (help) - ↑ Araoz PA, Gotway MB, Harrington JR, Harmsen WS, Mandrekar JN (2007). "Pulmonary embolism: prognostic CT findings". Radiology. 242 (3): 889–97. doi:10.1148/radiol.2423051441. PMID 17325073. Retrieved 2012-05-05. Unknown parameter
|month=
ignored (help) - ↑ Aujesky D, Obrosky DS, Stone RA, Auble TE, Perrier A, Cornuz J, Roy PM, Fine MJ (2005). "Derivation and validation of a prognostic model for pulmonary embolism". Am. J. Respir. Crit. Care Med. 172 (8): 1041–6. doi:10.1164/rccm.200506-862OC. PMC 2718410. PMID 16020800. Retrieved 2012-05-04. Unknown parameter
|month=
ignored (help) - ↑ BARRITT DW, JORDAN SC (1960). "Anticoagulant drugs in the treatment of pulmonary embolism. A controlled trial". Lancet. 1 (7138): 1309–12. PMID 13797091. Unknown parameter
|month=
ignored (help);|access-date=
requires|url=
(help) - ↑ {Ч{cite journal |author= |title=Urokinase pulmonary embolism trial. Phase 1 results: a cooperative study |journal=JAMA |volume=214 |issue=12 |pages=2163–72 |year=1970 |month=December |pmid=5536580 |doi= |url= |accessdate=2012-04-27}}
- ↑ "Urokinase-streptokinase embolism trial. Phase 2 results. A cooperative study". JAMA. 229 (12): 1606–13. 1974. PMID 4408392. Unknown parameter
|month=
ignored (help);|access-date=
requires|url=
(help) - ↑ Miller GA, Sutton GC, Kerr IH, Gibson RV, Honey M (1971). "Comparison of streptokinase and heparin in treatment of isolated acute massive pulmonary embolism". Br Med J. 2 (5763): 681–4. PMC 1796248. PMID 5556052. Unknown parameter
|month=
ignored (help);|access-date=
requires|url=
(help) - ↑ Goldhaber SZ, Kessler CM, Heit J, Markis J, Sharma GV, Dawley D; et al. (1988). "Randomised controlled trial of recombinant tissue plasminogen activator versus urokinase in the treatment of acute pulmonary embolism". Lancet. 2 (8606): 293–8. PMID 2899718.
- ↑ Albada J, Nieuwenhuis HK, Sixma JJ (1989). "Treatment of acute venous thromboembolism with low molecular weight heparin (Fragmin). Results of a double-blind randomized study". Circulation. 80 (4): 935–40. PMID 2551537. Retrieved 2012-05-02. Unknown parameter
|month=
ignored (help) - ↑ Simonneau G, Sors H, Charbonnier B, Page Y, Laaban JP, Azarian R, Laurent M, Hirsch JL, Ferrari E, Bosson JL, Mottier D, Beau B (1997). "A comparison of low-molecular-weight heparin with unfractionated heparin for acute pulmonary embolism. The THESEE Study Group. Tinzaparine ou Heparine Standard: Evaluations dans l'Embolie Pulmonaire". N. Engl. J. Med. 337 (10): 663–9. doi:10.1056/NEJM199709043371002. PMID 9278462. Retrieved 2012-04-27. Unknown parameter
|month=
ignored (help) - ↑ Tebbe U, Graf A, Kamke W, Zahn R, Forycki F, Kratzsch G, Berg G (1999). "Hemodynamic effects of double bolus reteplase versus alteplase infusion in massive pulmonary embolism". Am. Heart J. 138 (1 Pt 1): 39–44. PMID 10385761. Retrieved 2012-05-06. Unknown parameter
|month=
ignored (help) - ↑ Konstantinides S, Geibel A, Heusel G, Heinrich F, Kasper W (2002). "Heparin plus alteplase compared with heparin alone in patients with submassive pulmonary embolism". N. Engl. J. Med. 347 (15): 1143–50. doi:10.1056/NEJMoa021274. PMID 12374874. Retrieved 2012-05-06. Unknown parameter
|month=
ignored (help) - ↑ Merli G, Spiro TE, Olsson CG, Abildgaard U, Davidson BL, Eldor A, Elias D, Grigg A, Musset D, Rodgers GM, Trowbridge AA, Yusen RD, Zawilska K (2001). "Subcutaneous enoxaparin once or twice daily compared with intravenous unfractionated heparin for treatment of venous thromboembolic disease". Ann. Intern. Med. 134 (3): 191–202. PMID 11177331. Retrieved 2012-05-02. Unknown parameter
|month=
ignored (help) - ↑ Kakkar AK, Cimminiello C, Goldhaber SZ, Parakh R, Wang C, Bergmann JF (2011). "Low-molecular-weight heparin and mortality in acutely ill medical patients". N. Engl. J. Med. 365 (26): 2463–72. doi:10.1056/NEJMoa1111288 url=http://www.nejm.org/doi/abs/10.1056/NEJMoa1111288?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed Check
|doi=
value (help). PMID 22204723. Unknown parameter|month=
ignored (help);|access-date=
requires|url=
(help) - ↑ "Prevention of pulmonary embolism and deep vein thrombosis with low dose aspirin: Pulmonary Embolism Prevention (PEP) trial". Lancet. 355 (9212): 1295–302. 2000. PMID 10776741. Retrieved 2012-04-28. Unknown parameter
|month=
ignored (help) - ↑ Büller HR, Prins MH, Lensin AW, Decousus H, Jacobson BF, Minar E, Chlumsky J, Verhamme P, Wells P, Agnelli G, Cohen A, Berkowitz SD, Bounameaux H, Davidson BL, Misselwitz F, Gallus AS, Raskob GE, Schellong S, Segers A (2012). "Oral rivaroxaban for the treatment of symptomatic pulmonary embolism". N. Engl. J. Med. 366 (14): 1287–97. doi:10.1056/NEJMoa1113572. PMID 22449293. Retrieved 2012-04-28. Unknown parameter
|month=
ignored (help)